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Kozubskaya Tatiana Konstantinovna

Publications in Math-Net.Ru

  1. On implementation of monotonicity preserving reconstruction of variables in EBR schemes

    Mat. Model., 38:1 (2026),  42–58
  2. On numerical beamforming for acoustic source identification basing on supercomputer simulation data

    Dokl. RAN. Math. Inf. Proc. Upr., 519 (2024),  46–52
  3. Accuracy evaluation of modern effective codes by comparing calculated and experimental data on the example of problem about supersonic viscous turbulent gas flow around the tandem of back-forcing and forward-forcing steps

    Mat. Model., 35:10 (2023),  69–112
  4. On numerical beamforming for correlated dipole type sources

    Zh. Vychisl. Mat. Mat. Fiz., 63:11 (2023),  1923
  5. Approaches to the numerical simulation of the acoustic field generated by multi-element aircraft wing in high-lift configuration

    Mat. Model., 34:7 (2022),  24–48
  6. Anisotropic adaptation of moving unstructured mesh to bodies of complex shapes described by an interpolation octree

    Zh. Vychisl. Mat. Mat. Fiz., 62:10 (2022),  1620–1631
  7. Simulation of flow near rotating propeller on adaptive unstructured meshes using immersed boundary method

    Mat. Model., 33:8 (2021),  59–82
  8. Method of unstructured mesh deformation to find aerodynamic characteristics of a body at small displacements

    Mat. Model., 33:3 (2021),  109–132
  9. Statement of the beamforming problem and a method of its solution for the localization of an acoustic source based on computational experiment data

    Zh. Vychisl. Mat. Mat. Fiz., 61:11 (2021),  1904–1926
  10. Characteristic based volume penalization method for numerical simulation of compressible flows on unstructured meshes

    Zh. Vychisl. Mat. Mat. Fiz., 61:8 (2021),  1336–1352
  11. EBR schemes with curvilinear reconstructions of variables in the near-wall region

    Zh. Vychisl. Mat. Mat. Fiz., 61:1 (2021),  3–19
  12. Method for prediction of aerodynamic characteristics of helicopter rotors based on edge-based schemes in code NOISEtte

    Computer Research and Modeling, 12:5 (2020),  1097–1122
  13. On using artificial viscosity in edge-based schemes on unstructured meshes

    Mat. Model., 32:12 (2020),  114–128
  14. EBR schemes with curvilinear reconstructions for solving two-dimensional external flow problems

    Keldysh Institute preprints, 2019, 152, 22 pp.
  15. Numerical simulation of supersonic separated flow over inclined backward-facing step using RANS and LES methods

    Mat. Model., 31:11 (2019),  3–20
  16. Comparison of two higher accuracy unstructured scale-resolving approaches applied to dual-stream nozzle jet simulation

    Mat. Model., 31:10 (2019),  130–144
  17. Numerical simulation of acoustic fields induced by flow past oscillating solid

    Mat. Model., 31:10 (2019),  98–116
  18. Immersed boundary method on deformable unstructured meshes for airfoil aeroacoustic simulation

    Zh. Vychisl. Mat. Mat. Fiz., 59:12 (2019),  2046–2059
  19. Multimodel approach for helicopter rotor aeroacoustic and aerodynamic characteristics modeling using numerical simulation

    Keldysh Institute preprints, 2018, 047, 32 pp.
  20. Simulation of unsteady turbulent flow around a cylinder prescribed by immersed boundary method

    Mat. Model., 30:5 (2018),  117–133
  21. Simulation of aerodynamics of a moving body prescribed by immersed boundaries on dynamically adaptative unstructured mesh

    Mat. Model., 30:5 (2018),  57–75
  22. Immersed boundary method for numerical simulation of inviscid compressible flows

    Zh. Vychisl. Mat. Mat. Fiz., 58:9 (2018),  1462–1471
  23. Edge-based approximation of the Navier–Stokes equations for axial symmetric flows on unstructured meshes

    Keldysh Institute preprints, 2017, 144, 24 pp.
  24. EBR-WENO scheme for solving gas dynamics problems with discontinuities on unstructured meshes

    Keldysh Institute preprints, 2017, 023, 32 pp.
  25. Technology of prediction acoustic disturbances in flow far field in rotating framework

    Mat. Model., 29:7 (2017),  94–108
  26. Simulation of unsteady isotropic turbulent flows on unstructured meshes using edge-based algorithms

    Mat. Model., 29:5 (2017),  27–45
  27. Implementation the low Mach number method for calculation of flows in the software package NOISEtte

    Mat. Model., 29:4 (2017),  101–112
  28. Construction of edge-based 1-exact schemes for solving the Euler equations on hybrid unstructured meshes

    Zh. Vychisl. Mat. Mat. Fiz., 57:4 (2017),  682–701
  29. Application of the quasi one-dimensional reconstruction scheme to sliding meshes

    Mat. Model., 28:8 (2016),  13–32
  30. Cell-centered quasi one-dimensional reconstruction scheme on 3D hybrid meshes

    Mat. Model., 28:3 (2016),  79–95
  31. Modification of Flux Corrector method for accuracy improvement on unsteady problems

    Keldysh Institute preprints, 2015, 069, 22 pp.
  32. Numerical simulation of aerodynamic and acoustic characteristics of rotor in ring

    Mat. Model., 27:10 (2015),  125–144
  33. Numerical simulation of transonic turbulent flow around the wedge-shaped body with backward-facing step

    Mat. Model., 27:10 (2015),  81–95
  34. The implementation of immersed boundary method for simulation of external flow on unstructured meshes

    Mat. Model., 27:10 (2015),  5–20
  35. Error structure of conservative 4-point finite-difference scheme on non-uniform meshes

    Keldysh Institute preprints, 2014, 074, 32 pp.
  36. Using Brinkman penalization method for numerical simulation viscous compressible flows over obstacles

    Keldysh Institute preprints, 2014, 011, 14 pp.
  37. Efficient formulation for schemes with quasi-one-dimensional reconstruction of variables

    Keldysh Institute preprints, 2013, 089, 16 pp.
  38. Higher accuracy scheme based on edge-oriented quasi-1В reconstruction of variables for solving aerodynamics and aeroacoustics problems on unstructured meshes

    Mat. Model., 25:8 (2013),  109–136
  39. Parallel research code NOISEtte for large-scale CFD and CAA simulations

    Num. Meth. Prog., 13:3 (2012),  110–125
  40. Technology of predicting acoustic disturbances in flow far field

    Mat. Model., 23:11 (2011),  33–47
  41. CABARET scheme for the numerical solution of aeroacoustics problems: Generalization to linearized one-dimensional Euler equations

    Zh. Vychisl. Mat. Mat. Fiz., 49:12 (2009),  2265–2280
  42. On modeling of homogeneous random fields and signals and their applications in aeroacoustics problems

    Mat. Model., 19:10 (2007),  76–88
  43. Numerical experiments on acoustic liners

    Mat. Model., 19:8 (2007),  15–21
  44. Study of impact of viscous-terms approximation on accuracy of numerical solution of gas dynamics equations

    Mat. Model., 19:7 (2007),  85–92
  45. High accuracy scheme for solving nonlinear aeroacoustics problems on unstructured meshes

    Mat. Model., 19:7 (2007),  56–66
  46. Technology of parallelization for explicit high accuracy algorithms of computational fluid dynamics and aeroacoustics on unstructured grids

    Mat. Model., 19:2 (2007),  68–86
  47. Application of kinetically consistent finite difference schemes for turbulent supersonic jet noise prediction

    Mat. Model., 13:10 (2001),  56–76
  48. Harmonic analysis of the quasi-gasdynamic system of equations for viscous gas flows and kinetically consistent finite difference schemes in their linear approximations

    Zh. Vychisl. Mat. Mat. Fiz., 40:2 (2000),  265–273
  49. Acoustic noise propagation through supersonic viscous compressible gas flow

    Mat. Model., 11:12 (1999),  3–15
  50. On boundary conditions construction for 1D transport equation according to quasidiffusion and frozen coefficients methods

    Mat. Model., 7:10 (1995),  127–132
  51. Numerical simulation of radiative gasdynamics problems using multyprocessor distributed memory computer systems

    Mat. Model., 6:7 (1994),  83–90

  52. Special Issue "Computational Experiment in Aeroacoustics and Aerodynamics"

    Mat. Model., 35:9 (2023),  3–4
  53. Special issue "Computational Experiment in AeroAcoustics"

    Mat. Model., 33:7 (2021),  3–4
  54. Special issue "Computational Experiment in AeroAcoustics"

    Mat. Model., 31:10 (2019),  3–6
  55. Foreword

    Mat. Model., 30:5 (2018),  3–4
  56. Yuri Nikolaevich Deryugin - on his seventieth birthday

    Zhurnal SVMO, 19:2 (2017),  139–141
  57. Foreword

    Mat. Model., 27:10 (2015),  3–4
  58. Вычислительный эксперимент в аэроакустике 2012 (17-22 сентября, Светлогорск, Россия)

    Mat. Model., 25:9 (2013),  3
  59. Третья открытая всероссийская конференция «Вычислительный эксперимент в аэроакустике» (20–25 сентября 2010 г., г. Светлогорск Калининградской области)

    Mat. Model., 23:11 (2011),  3–4

© Steklov Math. Inst. of RAS, 2026