可压缩边界层与混合层失稳结构的研究进展及其工程应用

沈清; 袁湘江; 王强; 杨武兵; 关发明; 纪锋

doi:10.6052/1000-0992/11-045

可压缩边界层与混合层失稳结构的研究进展及其工程应用

doi: 10.6052/1000-0992/11-045

中国航天空气动力技术研究院, 北京 100074

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通讯作者:
沈清

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出版历程
- 收稿日期: 2010-04-05
- 修回日期: 2011-10-09
- 刊出日期: 2012-05-25

REVIEW ON THE INSTABILITY STRUCTURE IN COMPRESSIBLE BOUNDARY LAYERS AND MIXING LAYERS AND ITS APPLICATION

China Academy of Aerospace Aerodynamics, Beijing 100074, China

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Corresponding author: SHEN Qing

摘要

摘要: 本文回顾了可压缩边界层与混合层中失稳结构及其应用的研究进展. 这些工作包括人们对高超声速平板边界层失稳特性、高超声速圆锥边界层转捩攻角效应的产生机制和可压缩混合层失稳特性的研究认识,以及这些相关认识的3 个应用方向. 这些相关工作丰富了人们对高速流动转捩和湍流拟序结构的认识.
- 可压缩边界层 /
- 可压缩混合层 /
- 失稳结构
Abstract: This paper reviews the studies on instability structures in compressible boundary layer and mixing layers and their applications. These include the instability in hypersonic plane boundary layers, the mechanism of the effect of angle of attack on the hypersonic boundary layer transition on sharp cone and the instability in compressible mixing layers. All of these results are helpful for people to understand the transition process and turbulent coherent structure in high speed flows.
- compressible boundary layer /
- compressible mixing layers /
- instability structure

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参考文献(67)

1 Reshotko E. Boundary-layer stability and transition. Annu. Rev. Fluid Mech., 1976, 8: 311-349

2 Reshotko E. Boundary-layer instability, transition and control. AIAA paper 1994-0001, 1994

3 Herbert T. Secondary instability of boundary layers. Annu. Rev. Fluid Mech., 1988, 20: 487-526

4 Saric W S, Reed H L, White E B. Stability and transition of three-dimensional boundary layers. Annu. Rev. Fluid Mech., 2003, 35: 413-440

5 Eckhardt B, Schneider T M, Horf B, et al. Turbulence transition in pipe flow. Annu. Rev. Fluid Mech., 2007,39: 447-468

6 Ho C M, Huerre P. Perturbed free shear layers. Annu. Rev. Fluid Mech., 1984, 16: 365-424

7 Liu J T C. Coherent structures in transitional and turbulent free shear flows. Annu. Rev. Fluid Mech., 1989, 21:285-315

8 Dimotakis P E. The mixing transition in turbulent flows. J. Fluid Mech., 2000, 409: 69-98

9 Morkovin M V, Reshotko E, Herbert T. Transition in open flow systems-a reassessment. Bull. APS, 1994, 39(9):1882

10 Kline S J, Reynolds W C, Schraub F A, et al. The structure of turbulent boundary layers. J. Fluid Mech., 1967,30: 741-773

11 Bradshwa P, Ferriss D H, Johnson R F. Turbulence in the noise-producing region of a circular jet. J. Fluid Mech.,1964, 19: 591-624

12 Crow S C, Champagne F H. Orderly structure in jet turbulence. J. Fluid Mech., 1971, 48: 547-591

13 Brown G L, Roshko A. On density effects and large structure in turbulent mixing layers. J. Fluid Mech., 1974, 64:775-816

14 Saric W S, Reshotko E, Arnal D. Hypersonic laminarturbulent transition, AGARD-AR-319 1998, 2: 1-27

15 Kimmel R L. Aspects of hypersonic boundary-layer transition control. AIAA paper 2003-772, 2003

16 Mack L M. Boundary-layer stability theory. Jet Propulsion Laboratory Report 900-277 Rev. A, Jet Propulsion Laboratory, California Institute of Technology, Pasadena, California, 1969

17 杨武兵, 庄逢甘, 沈清. 可压缩混合层流动近十年研究进展. 力学进展, 2008, 38(1): 62-76, 2008

18 Shen Q, Ji F. Verification of direct numerical simulation on hypersonic boundary layer stability with LST. The Eleventh Asian Congress of Fluid Mechanics, 2006

19 Wilkinson S P. A review of hypersonic boundary layer stability experiments in a quiet Mach 6 wind tunnel. AIAA paper 1997-1819, 1997

20 Casper K M, Beresh S J, Henfling J F, et al. Hypersonic wind-tunnel measurements of boundary-layer pressure fluctuations. AIAA paper 2009-4054, 2009

21 Saric W S, Kozlov V V, Levchenko V Y. Forced and unforced subharmonic resonance in boundary-layer transition. AIAA paper 1984-0007, 1984

22 Herbert T. Secondary instability of plane channel flow to subharmonic three-dimensional disturbances. Phys. Flu- ids, 1983, 26: 871-874

23 Herbert T. Subharmonic three-dimensional distrubances in unstable plane Poiseuille flows. AIAA paper 1983-1759,1983

24 Herbert T. Analysis of subharmonic route to transition in boundary layer. AIAA paper 1984-0009, 1984

25 Ringuette M J, Martin M P, Smits A J, et al. Characterization of the turbulence structure in supersonic boundary layers using DNS data. AIAA paper 2006-3539, 2006

26 Danehy P M, Inman J A, Bathel B F, et al. High-speed PLIF imaging of hypersonic transition over discrete cylindrical roughness. AIAA paper 2010-703, 2010

27 Stetson K F, Rushton G H. Shock tunnel investigation of boundary-layer transition at M = 5:5. AIAA J., 1967,5(5): 899-906

28 Cleary J W. Effects of angle of attack and nose bluntness on the hypersonic flow over cones. AIAA 1966-414, 1966

29 DiCristian V. Three-dimensional laminar boundary-layer transition on a sharp 8-deg. cone at ach 10. AIAA J.,1971, 8(5): 852-856

30 Fischer M C, Rudy D H. Effect of angle of attack on boundary-layer transition at Ma 21. AIAA J., 1971, 9(6):1203-1205

31 Mateer G G. The effect of angle of attack on boundarylayer transition on cones. AIAA J., 1972, 10: 1127-1128

32 Schneider S P. Hypersonic laminar-turbulent transition on circular cones and scramjet forebodies. Progress in Aerospace Sciences, 2004, 40 (1-2): 1-50

33 Stetson K F, Thompson E R, Donaldson J C, et al. Laminar boundary layer stability experiments on a cone at Mach 8, Part 3: sharp cone at angle of attack. AIAA paper 1985-0492, 1985

34 Doggett G P, Chokani N, Wilkinson S P. Effect of angle of attack on hypersonic boundary-layer stability. AIAA J.,1997, 35(3): 464-470

35 Holden M, Bower D, Chadwick K. Transition on cones at angle of attack for Mach numbers from 11 to 13. AIAA paper 1995-2294, 1995

36 Schneider S P. Hypersonic transition research in the Boeing/ AFOSR Mach-6 quiet tunnel. AIAA paper 2003-3450,2003

37 Li X L, Fu D X, Ma Y W. Direct numerical simulaition of hypersonic boundary layer transition over a blunt cone with a small angle of attack. Physics of Fluids, 2010, 2(2):1-18

38 苏彩虹, 周恒. 超音速和高超音速有攻角圆锥边界层的转捩预测. 中国科学(G 辑), 2009, 39(6): 874-882

39 纪锋, 沈清. 高超声速圆锥边界层稳定性计算与分析. 中国第一届近代空气动力学与气动热力学会议论文集, 2006

40 杨武兵, 庄逢甘, 沈清, 等. 超声速混合层(Mc = 0:5) 流动现象的实验观测和计算分析. 中国科学(G 辑), 2009, 39(8):1126-1133

41 Moser R D, Rogers M M. The three- dimensional evolution of a plane mixing layer: pairing and transition to turbulence. J. Fluid Mech., 1993, 247: 275-320

42 Lessen M, Fox J A, Zien H M. Stability of the laminar mixing of two parallel streams with respect to supersonic disturbances. J. Fluid Mech., 1996, 25(4): 737-742

43 Gropengiesser H. Study on the stability of bounday layers and compressible fluids. NASA Tech Transl F-12-786,1970

44 Blumen W, Drazin P G, Billings D F. Shear layer instability of an inviscid compressible fluid. Part 2. J. Fluid Mech., 1975, 71(2): 305-316

45 Jackson T L, Grosch C E. Inviscid spatial stability of a compressible mixing layer. J. Fluid Mech., 1989, 208: 609-637

46 沈清, 王强, 庄逢甘. 超声速平面剪切层声辐射涡模态数值分析. 力学学报, 2007, 39(1): 7-14

47 Ragab S A, Wu J L. Linear subharmonic instabilities of Periodic compressible mixing layers. AIAA paper 1989-0039, 1989

48 Sandham N D, Reynolds W C. Three-dimensional simulations of large eddies in the compressible mixing layer. J. Fluid Mech., 1991, 224: 133-158

49 Clemens N T, Mungal M G. Large-scale structure and entrainment in the supersonic mixing layer. J. Fluid Mech.,1995, 284: 171-216

50 Collis S S, Lele S K, Moser R D, et al. The evolution of a plane mixing layer with spanwise nonuniform forcing. Phys. Fluids, 1994, 6(1): 381-396

51 傅德熏, 马延文, 张林波. 可压混合层流动转捩到湍流的直接数值模拟. 中国科学(A 辑), 2000, 30(2): 161-168

52 苗文博, 程晓丽, 王强. 可压缩燃烧反应转捩混合层直接数值模拟. 力学学报, 2008, 40(1): 114-120

53 沈清, 袁湘江, 张涵信. 三维平面超声速剪切层失稳结构和混合增强的数值模拟. 2003’ 全国流体力学青年研讨会论文集, 北京, 2003

54 Shen Q, Zhuang F G, Guan F M. Numerical simulation on a planar supersonic free shear layer secondary instability. AIAA paper 2006-3351, 2006

55 Guan F M, Shen Q, Zhuang F G, et al. Three-dimension numerical simulation on controlled stability of a planar supersonic free shear layer. AIAA paper 2007-1311, 2007

56 杨武兵, 庄逢甘, 沈清, 等. 可压缩混合层流动二次失稳结构的流动显示. 中国力学学会学术大会’2009, 中国: 河南郑州, 2009

57 易仕和, 何霖, 赵玉新, 等. 基于NPLS 技术的超声速混合层流动控制实验研究. 中国科学(G 辑), 2009, 39(11): 1640-1645

58 Fedorov A V, Malmuth N D, Rasheed A, et al. Stabilization of hypersonic boundary-layers by porous coatings. AIAA J., 2001, 39(4): 605-610

59 Rasheed A, Hornung H G, Fedorov A V, et al. Experiments on passive hypervelocity boundary layer control using an ultrasonically absorptive surface. AIAA J., 2002,40(3): 481-489

60 Maslov A, Shiplyuk A, Sidorenko A, et al. Hypersonic laminar flow control using a porous coating of random microstructure. AIAA paper 2006-1112, 2006

61 Fransson J H M, Talamelli A, Brandt L, et al. Delaying transition to turbulence by a passive mechanism. Physical Review Letters, 2006, 96: 064501

62 Karen T B, Frank A G. Aerothermodynamic testing and boundary layer trip sizing of the HIFiRE Flight 1 Vehicle. AIAA paper 2008-0640, 2008

63 Papamoschou D. Structure of the compressible turbulent shear layer. AIAA paper 1989-0126, 1989

64 Lele S K. Direct numerical simulation of compressible free shear flows. AIAA paper 1989-0374, 1989

65 Seiner J M, Dash S M, Kenzakowski D C. Historical survey on enhanced mixing in scramjet engines. AIAA paper1999-4869, 1999

66 罗纪生, 张哲, 周恒. 增强可压缩混合层混合的一种方法. 中国科学(A 辑), 2000, 30(11): 1033-1039

67 杨武兵, 庄逢甘, 沈清, 等. 超声速混合层中扰动增强混合实验. 力学学报, 2010, 42(3): 373-382

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文章访问数: 1213
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可压缩边界层与混合层失稳结构的研究进展及其工程应用

doi: 10.6052/1000-0992/11-045

通讯作者:
沈清

计量

REVIEW ON THE INSTABILITY STRUCTURE IN COMPRESSIBLE BOUNDARY LAYERS AND MIXING LAYERS AND ITS APPLICATION

Corresponding author: SHEN Qing

计量

目录

留言板

可压缩边界层与混合层失稳结构的研究进展及其工程应用

doi: 10.6052/1000-0992/11-045

通讯作者: 沈清

计量

出版历程

REVIEW ON THE INSTABILITY STRUCTURE IN COMPRESSIBLE BOUNDARY LAYERS AND MIXING LAYERS AND ITS APPLICATION

Corresponding author: SHEN Qing

计量

出版历程

目录

通讯作者:
沈清