ISBN: 3540654119
TITLE: Turbulent Flows
SUBTITLE: Models and Physics
AUTHOR: Piquet, Jean
TOC:

Chapter 1. THE EQUATIONS OF MOTION.
1. INTRODUCTION, THE EQUATIONS 1
2 SOME GENERAL PROPERTIES OF NAVIER-STOKES EQUATIONS 10
REFERENCES 22
Chapter 2. PRINCIPLES OF TURBULENT FLOW MODELING.
1. INTRODUCTION AND AVERAGING PROCEDURES 23
2. THE REYNOLDS-AVERAGED MEAN-FLOW EQUATIONS 46
3. THE CLOSURE PROBLEM 52
4. HOMOGENEOUS AND INHOMOGENEOUS FLOWS 64
5. THE EDDY-VISCOSITY CONCEPT 102
REFERENCES 132
Chapter 3. TWO-POINT HOMOGENEOUS TURBULENCE.
INTRODUCTION 143
1. HOMOGENEOUS TURBULENCE; CORRELATIONS AND SPECTRA 143
2. THE DYNAMICS OF SECOND-ORDER CORRELATIONS 157
3. THEORY OF HOMOGENEOUS ISOTROPIC TURBULENCE 167
4. RAPID DISTORSION THEORY 196
REFERENCES 222
Chapter 4. SECOND-ORDER TURBULENCE MODELING.
1. REYNOLDS-STRESS MODELING 229
2. THE TRANSFER TERM 238
3. INHOMOGENEOUS FLOW 261
4. NON LINEAR EV AND ARS MODELS 273
5. INTERMITTENCY MODELING 285
REFERENCES 294
APPENDIX A. DEFINITION OF TURBULENCE MODELS 301
Chapter 5. TURBULENT TWO-DIMENSIONAL SHEAR FLOWS.
1. INTRODUCTION 305
2. THIN FREE SHEAR LAYERS, CLASSIFICATION 306
3. ASYMPTOTICS OF WALL SHEAR LAYERS 316
4. CHANNEL AND PIPE FLOWS 330
5. ZERO-PRESSURE-GRADIENT BOUNDARY LAYERS 349
6. JETS 364
7. WAKES 425
REFERENCES 454
Chapter 6. COMPLEX EFFECTS IN TURBULENT FLOWS.
1. 2D BOUNDARY LAYERS IN PRESSURE GRADIENTS 471
2. TWO-DIMENSIONAL TURBULENT SEPARATION 497
3. CLASSIFICATION OF THREE-DIMENSIONAL FLOWS 512
4. THREE-DIMENSIONAL TURBULENT BOUNDARY LAYERS 522
5. CURVATURE EFFECTS 563
6. ROTATION EFFECTS 612
7. LATERAL STRAINING 622
8.. IMPOSITION OF SUDDEN STRAINS 637
9. ROUGHNESS EFFECTS 652
l0. FREESTREAM TURBULENCE 673
ll. THREE-DIMENSIONAL DUCT FLOW 684
REFERENCES 708
APPENDIX B. GEOMETRY CONCEPTS 728
SUBJECT INDEX 739
LIST OF SYMBOLS AND PAGE OF FIRST OCCURRENCE 748
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