Numerical Simulation of the Interaction of a Supersonic Boundary Layer with an Acoustic Wave

 
PIIS056852810001781-0-1
DOI10.31857/S056852810002303-4
Publication type Article
Status Published
Authors
Affiliation: Institute of Theoretical and Applied Mechanics. S.A. Khristianovich SB RAS
Address: Russian Federation
Affiliation: Institute of Theoretical and Applied Mechanics. S.A. Khristianovich SB RAS
Address: Russian Federation
Journal nameIzvestiia Rossiiskoi akademii nauk. Mekhanika zhidkosti i gaza
EditionIssue 6
Pages76-86
Abstract

    

Keywords
Received17.10.2018
Publication date15.12.2018
Cite   Download pdf To download PDF you should sign in
Размещенный ниже текст является ознакомительной версией и может не соответствовать печатной

views: 1172

Readers community rating: votes 0

1. Lin' Ts. Ts. Teoriya gidrodinamicheskoj ustojchivosti. M.: IL, 1958. 196 s.

2. Mack L. M., Boundary Layer Stability Theory, JPL 900–277 Rev. A. Jet Propulsion Lab. Pasadenayu. Calif., Nov. 1969.

3. Gaponov S. A., Maslov A. A. Razvitie vozmuschenij v szhimaemykh potokakh/ Otv. red. V. Ya. Levchenko. Novosibirsk: Nauka. Sib. otd-nie, 1980. 144 s.

4. Mack L. M. On the Application of Linear Stability Theory and the Problem of Supersonic Boundary layer Transition // AIAA J. V. 13. № 3. 1975.

5. Gaponov S. A. Vzaimodejstvie sverkhzvukovogo pogranichnogo sloya s akusticheskimi vozmuscheniyami // Izv. ANSSSR. MZhG. 1977. № 6. S. 51–56.

6. Gaponov S. A., Smorodsky B. V. Acoustics and instability of high-speed boundary layers // Int. J. Mech. 2012. V. 6. № 1. P. 9–16.

7. Gaponov S. A. Excitation of Instability Waves in the Supersonic Boundary Layer by Sound. IUTAM Symposium Potsdam. Springer-Verlag, 1993.

8. Gaponov S. A., Petrov G. V., Smorodskij B. V. Linejnoe i nelinejnoe vzaimodejstvie akusticheskikh voln so sverkhzvukovym pogranichnym sloem // Aehromekhanika i gazovaya dinamika. 2002. № 3. S. 21–30.

9. Gaponov S. A. Aeroacoustics of supersonic boundary layers // Int. J. Aeroacoustics. 2014. V. 13. № 1–2. P. 85–111.

10. Zhong X. Leading-edge receptivity to freestream disturbance waves for hypersonic flow over a parabola // J. Fluid Mech. 2001. № 441. P. 315–367.

11. Ma Y., Zhong X. Receptivity of a supersonic boundary layer over a flat plate. Part 2. Receptivity to freestream sound // J. Fluid Mech. 2003. № 488. P. 79–121.

12. Balakumar P. Transition in a Supersonic Boundary layer Due to Roughness and AcousticDisturbances // AIAAPaper 2003–3589, 2003.

13. Egorov I. V., Sudakov V. G., Fedorov A. V. Chislennoe modelirovanie vospriimchivosti sverkhzvukovogo pogranichnogo sloya k akusticheskim vozmuscheniyam // Izv. RAN. MZhG. 2006. № 1. C. 42–53.

14. Maslov A. A., Kudryavtsev A. N., Mironov S. G., Poplavskaya T. V., Tsyryul'nikov I. S. Chislennoe modelirovanie vospriimchivosti giperzvukovogo udarnogo sloya k akusticheskim vozmuscheniyam // PMTF. 2007. T. 48. № 3. C. 87–91.

15. Balakumar P. Receptivity of a Supersonic Boundary Layer to Acoustic Disturbances // AIAA J. V. 47. № 5. May 2009. P. 1034–1041.

16. Balakumar P, King R. A., Chou A., Owens L. R., and Kegerise M. A. Receptivity and Forced Response to Acoustic Disturbances in High-Speed Boundary Layers // AIAA 2016–3193. 2016.

17. Sudakov V. G. Chislennoe modelirovanie vliyaniya ugla naklona akusticheskikh voln na vospriimchivost' giperzvukovogo pogranichnogo sloya // Uch. zap. TsAGI. 2010. T. XLI. № 3. S. 31–41.

18. ANSYS Fluent Theory Guide. Realese 12.1, 2009.

19. Gaponov S. A., Semenov A. N. Numerical simulation of the disturbances development in a supersonic boundary layer // Int. J. Math. Models and Methods in Appl. Sciences. 2016. V. 10. P. 220–228.

20. Gaponov S. A., Smorodskij B. V. Difraktsiya akusticheskikh voln na perednej kromke ploskoj plastiny, pomeschennoj v sverkhzvukovoj potok // PMTF. 2005. T. 46. № 2. S.64–70.

Система Orphus

Loading...
Up