С. А. Кузнецова, А. В. Бойко, К. В. Демьянко, Г. В. Засько, Ю. М. Нечепуренко
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Список литературы
|
|
| |
| 1. |
H. Schlichting, Boundary-layer theory, 9th ed., eds. H. Schlichting, K. Gersten, Springer-Verlag, Berlin; Heidelberg, 2017 |
| 2. |
Ю. Д. Шевелев, Пространственные задачи вычислительной аэрогидродинамики, Наука, М., 1986 |
| 3. |
A. V. Boiko, Physics of transitional shear flows, eds. A. V. Boiko, A. V. Dovgal, G. R. Grek, V. V. Kozlov, Springer, Berlin, 2012 |
| 4. |
Н. Ф. Boiko, Управление и стабилизация в аэродинамике, ред. Н. Ф. Краснов, В. Н. Кошевой, Высш. шк., М., 1978 |
| 5. |
J. M. Délery, “Robert Legendre and Henri Werlé: Toward the elucidation of three-dimensional separation”, Annual Rev. Fluid Mech., 33 (2001), 129–154 |
| 6. |
M. J. Lighthill, Attachment and separation in three-dimensional flows. Laminar boundary layers, ed. L. Rosenhead, Univ. Press, Oxford, 1963 |
| 7. |
M. Tobak, D. J. Peake, “Topology of three-dimensional separated flows”, Annual Rev. Fluid Mech., 14 (1982), 61–85 |
| 8. |
G. T. Chapman, L. A. Yates, “Topology of flow separation on three-dimensional bodies”, Appl. Mech. Rev., 44:7 (1991), 329–345 |
| 9. |
A. Surana, O. Grunberg, G. Haller, “Exact theory of three-dimensional flow separation. Pt 1. Steady separation”, J. Fluid Mech., 564 (2006), 57–103 |
| 10. |
M. Miozzi, A. Capone, M. Constantini, et al., “Skin friction and coherent structures within a laminar separation bubble”, Experiment. Fluids, 60:30 (2019), 1–25 |
| 11. |
Б. Ю. Занин, “Гистерезис отрывного обтекания модели прямого крыла при изменении скорости потока”, ПМТФ, 38:5 (1997), 80–84  |
| 12. |
Д. Н. Занин, “Критерии отрыва нестационарного потока идеальной жидкости с гладкого контура”, ПМТФ, 47:1 (2006), 74–81 |
| 13. |
K. C. Wang, “Separation patterns of boundary layer over an inclined body of revolution”, AIAA J., 10:8 (1972), 1044–1050 |
| 14. |
K. C. Wang, H. C. Zhou, C. H. Hu, S. Harrington, “Three-dimensional separated flow structure over prolate spheroids”, Proc. Roy. Soc. London. Ser. A, 421 (1990), 73–90 |
| 15. |
J. Z. Wu, R. W. Tramel, F. L. Zhu, X. Y. Yin, “A vorticity dynamics theory of three-dimensional flow separation”, Phys. Fluids, 12:8 (2000), 1932–1954 |
| 16. |
Y. Levy, D. Degani, A. Seginer, “Graphical visualization of vortical flows by means of helicity”, AIAA J., 28:8 (1990), 1347–1352 |
| 17. |
L. A. Yates, G. T. Chapman, “Streamlines, vorticity lines, and vortices around three-dimensional bodies”, AIAA J., 30:7 (1992), 1819–1826 |
| 18. |
X. Tricoche, C. Garth, G. Scheuermann, “A fast and robust method for visualizing separation line features”, Scientific visualization: The visual extraction of knowledge from data, eds. Ed. by G. Bonneau, T. Ertl, G. Nielson, Springer, Berlin, 2005, 249–264 |
| 19. |
X. Tricoche, C. Garth, T. Bobach, et al., “Accurate and efficient visualization of flow structures in a delta wing simulation”, Proc. of the 34th AIAA Fluid dynamics conf. and exhibit, Portland (USA), 28 June – 01 July 2004, AIAA, 2004, 2153 |
| 20. |
A. Surana, G. B. Jacobs, G. Haller, “Extraction of separation and attachment surfaces from three-dimensional steady shear flows”, AIAA J., 45:6 (2005), 1290–1302 |
| 21. |
D. N. Kenwright, “Automatic detection of open and closed separation and attachment lines”, Proc. Visualization '98. Research Triangle Park: S. n, 1998, 151–158 |
| 22. |
D. N. Kenwright, C. Henze, C. Levit, “Feature extraction of separation and attachment lines”, IEEE Trans. Visual. Comput. Graph., 5:2 (1999), 135–144 |
| 23. |
A. V. Boiko, K. V. Demyanko, S. V. Kirilovskiy, et al., “Modeling of transonic transitional three dimensional flows for aerodynamic applications”, AIAA J., 59 (2021), 1–13 |
| 24. |
А. В. Бойко, К. В. Демьянко, А. А. Иноземцев и др., “Определение положения ламинарно-турбулентного перехода при численном моделировании обтекания пластины дозвуковыми и трансзвуковыми потоками”, Теплофизика и аэромеханика, 26:5 (2019), 675–683 |
| 25. |
S. V. Kirilovskiy, A. V. Boiko, K. V. Demyanko, et al., “On integrating the LOTRAN 3.0 package into the ANSYS fluent CFD software”, AIP Conf. Proc., 2125 (2019), 030098 |
| 26. |
T. V. Poplavskaya, A. V. Boiko, K. V. Demyanko, et al., “Numerical simulation of the transition to turbulence in subsonic and transonic flows”, J. Phys.: Conf. Ser., 1359 (2019), 012068 |
| 27. |
S. V. Kirilovskiy, A. V. Boiko, K. V. Demyanko, et al., “Numerical simulation of the laminar-turbulent transition on a swept wing in a subsonic flow”, J. Phys.: Conf. Ser., 1359 (2019), 012070 |
| 28. |
A. V. Boiko, K. V. Demyanko, Yu. M. Nechepurenko, “On computing the location of laminar-turbulent transition in compressible boundary layers”, Russ. J. Numer. Anal. Math. Modell., 32 (2017), 1–12 |
| 29. |
А. В. Бойко, K. В. Демьянко, С. В. Кириловский и др., “Об определении пороговых N-факторов положения ламинарно-турбулентного перехода в дозвуковом пограничном слое вытянутого сфероида”, ПМТФ, 62:6 (2021), 3–7 |
| 30. |
S. Zhang, A. J. Jaworski, S. C. McParlin, J. T. Turner, “Experimental investigation of the flow structures over a 40$^\circ$ swept wing”, Aeronaut. J., 123 (2019), 39–55 |
