Izvestiia Rossiiskoi akademii nauk. Mekhanika zhidkosti i gazaIssue 6Control of the laminar-turbulent transition on the swept wing using surface microrelief
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1. Saric W. S., Carillo R. B.J., Reibert M. S. Leading edge roughness as a transition control mechanism // AIAA paper № 98-0781, 1998.
2. Kuryachij A. P., Manujlovich S. V. Oslablenie neustojchivosti poperechnogo techeniya v trekhmernom pogranichnom sloe s pomosch'yu ob'emnogo silovogo vozdejstviya // Uch. zap. TsAGI. 2011. T. 42. S. 41–52.
3. Chernyshev S. L., Kiselev A. P., Kuryachii A. P. Laminar flow control research in TsAGI: Past and present // Progress in Aerospace Sciences. 2010. V. 47. № 3. P. 169–185.
4. Belov I. A., Enyutin G. V., Litvinov V. M. Vliyanie prodol'nogo i poperechnogo orebreniya ploskoj plastiny na laminarno-turbulentnyj perekhod // Uch. zap. TsAGI. 1990. T. 21. № 6. S. 107–111.
5. Grek G. R., Kozlov V. V., Titarenko S. V. Issledovanie vliyaniya orebreniya poverkhnosti (riblet) na protsess razvitiya dvumernykh vozmuschenij (voln Tollmina—Shlikhtinga) v laminarnom pogranichnom sloe// Sib. fiz.-tekhn. zhurn. 1993. V. 6. S. 26–30.
6. Grek G. R., Kozlov V. V., Titarenko S. V. Issledovanie vliyaniya orebreniya poverkhnosti na protsess razvitiya uedinennogo volnovogo paketa (l-vikhrya) v laminarnom pogranichnom sloe // Sib. fiz.-tekhn. zhurn. 1993. V. 2. S. 29–36.
7. Bojko A. V., Kozlov V. V., Syzrantsev V. V., Scherbakov V. A. Upravlenie pri pomoschi riblet laminarnoturbulentnym perekhodom v statsionarnom vikhre na skol'zyaschem kryle // Teplofizika i aehromekhanika. 1996. T. 3. № 1. S. 82–94.
8. Luchini P., Manzo M., Pozzi A. Resistance of a grooved surface to parallel and cross-flow // J. Fluid Mech. 1991. V. 228. P. 87–109.
9. Ustinov M. V. Amplitudnyj metod predskazaniya laminarno-turbulentnogo perekhoda na skol'zyaschem kryle // Izv. RAN. MZhG. 2017. № 1. C. 74–89.
10. Ustinov M. V. Chislennoe modelirovanie upravleniya laminarno-turbulentnym perekhodom s pomosch'yu diehlektricheskogo bar'ernogo razryada // Izv. RAN. MZhG. 2016. № 6. C. 76–89.
11. Deyhle H., Bippes H. Disturbance growth in an unstable three-dimensional boundary layer and its dependence on initial conditions // J. Fluid Mech. 1996. V. 316. P. 73–113.
12. Crouch J. D., Ng L. L. Variable N?factor method for transition prediction in three-dimensional boundary layers // AIAA J. 2000. V. 38. № 2. P. 211–215.
13. Drajden Kh. L. Perekhod laminarnogo techeniya v turbulentnoe. Turbulentnye techeniya i teploperedacha. M.: Inostr. lit., 1963.
14. Taira K., Colonis T. Three-dimensional flows around low-aspect-ratio flat-plate wings at low Reynolds numbers // J. Fluid Mech. 2009. V. 623. P. 187–207.
