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Vlasenko Vladimir Viktorovich

Publications in Math-Net.Ru

  1. Testing the numerical calculation methods and programs using the example of the problem for estimating the heat flow in the area of a separated flow due to shock wave on a flat sharp plate with a vertical sharp wedge mounted on it

    Mat. Model., 38:1 (2026),  123–154
  2. Complex panoramic multispectral imaging of combustion on a test rig

    Fizika Goreniya i Vzryva, 60:4 (2024),  112–123
  3. Description of premixed turbulent combustion in a channel with a step using partially stirred reactor models

    Fizika Goreniya i Vzryva, 60:4 (2024),  44–55
  4. Efficiency of two approaches to computing the flow around an airfoil with flaps in the case of flow separation

    Zh. Vychisl. Mat. Mat. Fiz., 59:1 (2019),  87–101
  5. Numerical simulation of different regimes of high-speed combustion chamber

    Keldysh Institute preprints, 2017, 097, 32 pp.
  6. Experience of validation and tuning of turbulence models as applied to the problem of boundary layer separation on a finite-width wedge

    Zh. Vychisl. Mat. Mat. Fiz., 56:6 (2016),  1034–1048
  7. On the accuracy of numerical calculation of the boundary layer separation on a finite-width wedge

    Mat. Model., 27:10 (2015),  32–46
  8. Experience of CFD data implementation for preparation and performing wind tunnel tests

    Mat. Model., 25:9 (2013),  43–62
  9. An experience of using CFD methods in experimental works in TsAGI

    Mat. Model., 23:11 (2011),  65–98
  10. Oblique detonation wave in composition stratified flow

    Mat. Model., 14:8 (2002),  61–66
  11. Stationary and nonstationary wave structures that arise in stabilization of detonation over a compression surface

    Fizika Goreniya i Vzryva, 37:1 (2001),  94–111
  12. The influence of chemical kinetics on the structure of oblique detonation wave

    Mat. Model., 12:5 (2000),  94–100
  13. The structure of the flow with oblique detonation wave at the wedge for near-critical wedge angles

    Mat. Model., 11:3 (1999),  83–95
  14. Numerical simulation of inviscid flows with hydrogen combustion behind shock waves and in detonation waves

    Fizika Goreniya i Vzryva, 31:3 (1995),  118–133

© Steklov Math. Inst. of RAS, 2026