Cargando…
Shock wave-boundary-layer interactions /
"This is the first book devoted solely to the phenomenon of Shock Wave Boundary Layer Interactions and covers all flow regimes where SBLI's occur"--Provided by publisher
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Cambridge ; New York :
Cambridge University Press,
2011.
|
| Colección: | Cambridge aerospace series.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Introduction / John K. Harvey and Holger Babinsky
- Physical introduction / Jean Delery
- Transonic shock wave boundary layer interactions / Holger Babinsky and Jean Delery
- Ideal gas shock wave turbulent boundary layer interactions in supersonic flows and their modeling
- two dimensional interactions / Alexander A. Zheltovodov and Doyle D. Knight
- Ideal gas shock wave turbulent boundary layer interactions in supersonic flows and their modeling
- three dimensional interactions / Doyle D. Knight and Alexander A. Zheltovodov
- Experimental studies of shock wave/boundary layer interactions in hypersonic flows / Michael S. Holden
- Numerical simulation of hypersonic shock wave boundary layer interactions / Graham V. Candler
- Shock wave/boundary layer interactions taking place in hypersonic flows / John K. Harvey
- Shock wave unsteadiness in turbulent shock wave boundary layer interactions / P. Dupont, J.F. Debieve and J.P. Dussauge
- Analytical treatment of shock/boundary layer interactions / George Inger.
- Cover; Title; Copyright; Dedication; Contents; Contributors; 1 Introduction; 1.1 Structure of the Book; 1.1.1 George Inger; 1.2 Intended Audience; 2 Physical Introduction; 2.1 Shock Wave-Boundary-Layer Interactions: Why They Are Important; 2.2 Discontinuities in Supersonic Flows; 2.2.1 Shock Waves; 2.2.2 The Shock-Polar Representation; 2.2.3 Shock Intersections and the Edney Classification of Shock-Shock Interferences; 2.2.4 Shock Waves, Drag, and Efficiency: The Oswatitsch Relationship; 2.3 On the Structure of a Boundary-Layer Flow; 2.3.1 Velocity Distribution through a Boundary Layer.
- 2.3.2 The Multilayer Structure2.3.3 The Boundary-Layer Response to a Rapid Pressure Variation; 2.4 Shock Waves and Boundary Layers: The Confrontation; 2.4.1 The Basic SBLI in Two-Dimensional Flows; 2.4.2 The Boundary-Layer-Shock-Pressure-Jump Competition; 2.5 Interactions without Separation: Weakly Interacting Flows; 2.5.1 The Incident-Reflecting Shock; Overall Flow Organisation; Shock Penetration in a Rotational Layer; 2.5.2 Ramp-Induced Shock; 2.5.3 Normal Shock and Transonic Interactions; 2.5.4 Upstream Influence Scaling.
- 2.6 Interaction Producing Boundary-Layer Separation: Strongly Interacting Flows2.6.1 Separation Caused by an Incident Shock; Overall Flow Organisation; The Outer Inviscid-Flow Structure; 2.6.2 Ramp-Induced Separation; 2.6.3 Normal Shock-Induced Separation or Transonic Separation; 2.7 Separation in Supersonic-Flow and Free-Interaction Processes; 2.7.1 The Free-Interaction Theory; 2.7.2 Incipient Shock-Induced Separation in Turbulent Flow; 2.8 Transitional SBLIs; 2.9 Specific Features of Hypersonic Interactions; 2.9.1 Shock Pattern and Flowfield Organisation; 2.9.2 Wall-Temperature Effect.
- 2.9.3 Wall-Heat Transfer in Hypersonic Interactions2.9.4 Entropy-Layer Effect; 2.9.5 Real-Gas Effects on SBLI; 2.10 A Brief Consideration of Three-Dimensional Interacting Flows; 2.10.1 Separation in Three-Dimensional Flow; 2.10.2 Topology of a Three-Dimensional Interaction; 2.10.3 Reconsideration of Two-Dimensional Interaction; 2.11 Unsteady Aspects of Strong Interactions; 2.12 SBLI Control; 2.12.1 Mechanisms for Control Action; 2.12.2 Examination of Control Techniques; Active Control; Passive Control; Wall Contouring; 2.13 Concluding Remarks.
- Appendix A: Discontinuities in Supersonic Flow and the Rankine-Hugoniot Equations3 Transonic Shock Wave-Boundary- Layer Interactions; 3.1 Introduction to Transonic Interactions; 3.2 Applications of Transonic SBLIs and Associated Performance Losses; 3.2.1 Transonic Airfoils and Cascades; Shock Losses on Transonic Wings; 3.2.2 Supersonic Engine Intakes; 3.2.3 Internal Flows; 3.3 Normal SBLIs in Detail; 3.3.1 Attached-Flow Interaction; Region I (Upstream of Main Shock); Region II (Downstream of Main Shock); Inflow-Shape-Factor Effects; 3.3.2 The Onset of Shock-Induced Separation.