Modeling and computation of boundary-layer flows: laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Long Beach, Calif. [u.a.]
Horizons Publ. [u.a.]
2005
|
| Ausgabe: | 2., rev. and extended ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XV, 502 S. graph. Darst. 1 CD-ROM (12 cm) |
| ISBN: | 354024459X 0966846192 |
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| 245 | 1 | 0 | |a Modeling and computation of boundary-layer flows |b laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM |c Tuncer Cebeci ; Jean Cousteix |
| 250 | |a 2., rev. and extended ed. | ||
| 264 | 1 | |a Long Beach, Calif. [u.a.] |b Horizons Publ. [u.a.] |c 2005 | |
| 300 | |a XV, 502 S. |b graph. Darst. |e 1 CD-ROM (12 cm) | ||
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Datensatz im Suchindex
| _version_ | 1804137458047123456 |
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| adam_text | TUNCER CEBECI JEAN COUSTEIX MODELING AND COMPUTATION OF BOUNDARY-LAYER
FLOWS LAMINAR, TURBULENT AND TRANSITIONAL BOUNDARY LAYERS IN
INCOMPRESSIBLE AND COMPRESSIBLE FLOWS SECOND REVISED AND EXTENDED
EDITION WITH 224 FIGURES, 15 TABLES, 168 PROBLEMS AND A CD-ROM HORIZONS
PUBLISHING ^J SPRINGER CONTENTS 1. INTRODUCTION ^ 1.1 SKIN-FRICTION DRAG
REDUCTION 3 1.1.1 LAMINAR FLOW CONTROL 4 1.1.2 CALCULATIONS FOR NLF AND
HLFC WINGS 7 1.2 PREDICTION OF THE MAXIMUM LIFT COEFFICIENT OF
MULTIELEMENT WINGS N REFERENCES 1 N 2. CONSERVATION EQUATIONS FOR MASS
AND MOMENTUM FOR INCOMPRESSIBLE FLOWS YJ 2.1 INTRODUCTION 27 2.2
NAVIER-STOKES EQUATIONS LG 2.3 REYNOLDS-AVERAGED NAVIER-STOKES EQUATIONS
20 2.4 INVISCID FLOW EQUATIONS 22 REFERENCES 93 PROBLEMS 24 3.
BOUNDARY-LAYER EQUATIONS FOR INCOMPRESSIBLE FLOWS 27 3.1 TWO-DIMENSIONAL
FLOWS 27 3.1.1 LAMINAR FLOWS 27 3.1.2 TURBULENT FLOWS 29 3.2
AXISYMMETRIC FLOWS 30 3.3 MOMENTUM INTEGRAL EQUATION 31 3.3.1
TWO-DIMENSIONAL FLOWS 32 3.3.2 AXISYMMETRIC FLOWS 33 3.4 BOUNDARY AND
INITIAL CONDITIONS 34 REFERENCES O^ PROBLEMS OA X CONTENTS 4.
TWO-DIMENSIONAL INCOMPRESSIBLE LAMINAR FLOWS 43 4.1 INTRODUCTION 43 4.2
SIMILAR FLOWS: EXTERNAL FLOWS 44 4.2.1 SIMILARITY CONCEPT 44 4.2.2
FALKNER-SKAN EQUATION 44 4.2.3 SOLUTIONS OF THE FALKNER-SKAN EQUATION 48
4.3 SIMILAR FLOWS: FREE-SHEAR FLOWS 53 4.3.1 AXISYMMETRIC JET 53 4.3.2
TWO-DIMENSIONAL WAKE 56 4.3.3 MIXING LAYER BETWEEN TWO UNIFORM STREAMS
59 4.3.4 POWER LAWS FOR THE WIDTH AND FOR THE CENTERLINE VELOCITY OF
SIMILAR FREE SHEAR LAYERS 61 4.4 NUMERICAL SOLUTION OF THE
BOUNDARY-LAYER EQUATIONS: INTEGRAL FORM 62 4.4.1 POHLHAUSEN METHOD 62
4.4.2 THWAITES METHOD 64 4.5 NUMERICAL SOLUTION OF THE BOUNDARY-LAYER
EQUATIONS: DIFFERENTIAL FORM 66 4.5.1 NUMERICAL FORMULATION 69 4.5.2
NEWTON S METHOD 70 4.5.3 BLOCK-ELIMINATION METHOD 72 4.6 APPLICATIONS OF
BLP2 TO EXTERNAL FLOWS 73 4.6.1 AIRFOIL FLOW 74 4.6.2 ELLIPSE FLOW 75
4.6.3 PROLATE SPHEROID FLOW 77 REFERENCES 79 PROBLEMS 80 5. TRANSITION
IN TWO-DIMENSIONAL INCOMPRESSIBLE FLOWS 105 5.1 INTRODUCTION 105 5.2
TRANSITION PROCESS 106 5.3 LINEAR STABILITY THEORY 109 5.3.1 BOUNDARY
CONDITIONS 112 5.3.2 PROPERTIES OF THE ORR-SOMMERFELD EQUATION FOR
TWO-DIMENSIONAL FLOWS 113 5.4 PREDICTION OF TRANSITION 117 5.4.1
EMPIRICAL CORRELATIONS 117 5.4.2 E N -METHOD 119 5.4.3 H-R X METHOD 121
5.5 FACTORS THAT INFLUENCE TRANSITION 122 5.5.1 EFFECTS OF FREESTREAM
TURBULENCE AND NOISE 122 5.5.2 EFFECTS OF PRESSURE GRADIENT 124 CONTENTS
XI 5.5.3 EFFECTS OF HEAT TRANSFER 127 5.5.4 EFFECTS OF SUCTION 130 5.5.5
EFFECTS OF SURFACE ROUGHNESS 133 5.5.6 EFFECTS OF SURFACE CURVATURE 135
5.6 NUMERICAL SOLUTION OF THE ORR-SOMMERFELD EQUATION 136 5.6.1
EIGENVALUE PROCEDURE FOR TWO-DIMENSIONAL FLOWS 139 5.6.2 EIGENVALUE
PROCEDURE FOR TRANSITION 143 5.7 APPLICATIONS OF STP 144 5.7.1 STABILITY
DIAGRAMS FOR BLASIUS FLOW 145 5.7.2 TRANSITION PREDICTION 146 REFERENCES
149 PROBLEMS 151 6. TWO-DIMENSIONAL INCOMPRESSIBLE TURBULENT FLOWS 163
6.1 INTRODUCTION 163 6.2 COMPOSITE NATURE OF A TURBULENT BOUNDARY-LAYER
163 6.2.1 THE INNER LAYER: SMOOTH SURFACE 164 6.2.2 THE INNER LAYER:
ROUGH SURFACE 166 6.2.3 THE OUTER LAYER 169 6.2.4 SUMMARY 171 6.2.5 THE
WHOLE LAYER 171 6.3 TURBULENCE MODELS 175 6.3.1 ZERO-EQUATION MODELS 176
6.3.2 TURBULENCE MODELS BASED ON TRANSPORT EQUATIONS 179 6.4 TURBULENT
BOUNDARY-LAYERS ON SMOOTH AND ROUGH SURFACES WITH ZERO PRESSURE GRADIENT
186 6.4.1 SMOOTH FLAT PLATE 187 6.4.2 ROUGH FLAT PLATE 190 6.5 TURBULENT
BOUNDARY-LAYERS WITH PRESSURE GRADIENT: INTEGRAL METHODS 192 6.6
TURBULENT BOUNDARY-LAYERS WITH PRESSURE GRADIENT: DIFFERENTIAL METHODS
195 6.7 FREE SHEAR LAYERS 196 6.7.1 AXISYMMETRIC JET 196 6.7.2
TWO-DIMENSIONAL WAKE 199 6.7.3 POWER LAWS FOR THE WIDTH AND THE
CENTERLINE VELOCITY OF SIMILAR FREE SHEAR LAYERS 201 REFERENCES 201
PROBLEMS 203 7. THREE-DIMENSIONAL INCOMPRESSIBLE LAMINAR AND TURBULENT
FLOWS 209 7.1 INTRODUCTION 209 XII CONTENTS 7.2 BOUNDARY-LAYER EQUATIONS
FOR THREE-DIMENSIONAL FLOWS 210 7.2.1 CARTESIAN COORDINATE SYSTEM 211
7.2.2 STREAMLINE COORDINATE SYSTEM 213 7.2.3 BODY-ORIENTED COORDINATE
SYSTEM 215 7.3 INITIAL CONDITIONS 217 7.4 TURBULENCE MODELS 219 7.5
TRANSFORMED EQUATIONS 223 7.6 NUMERICAL SOLUTION OF THE BOUNDARY-LAYER
EQUATIONS: DIFFERENTIAL FORM 225 7.6.1 FLOWS WITHOUT REVERSAL: STANDARD
BOX 228 7.6.2 FLOWS WITH REVERSAL: CHARACTERISTIC BOX 231 7.6.3
CALCULATION OF GEOMETRIC PARAMETERS 233 7.7 EVALUATION OF A TURBULENCE
MODEL FOR THREE-DIMENSIONAL FLOWS. 235 7.7.1 INFINITE SWEPT WING FLOWS
236 7.7.2 FULL THREE-DIMENSIONAL FLOWS 243 7.8 BOUNDARY-LAYER PROGRAM
FOR THREE-DIMENSIONAL FLOWS 247 REFERENCES 250 PROBLEMS 252 8.
TRANSITION IN THREE-DIMENSIONAL INCOMPRESSIBLE FLOWS 261 8.1
INTRODUCTION 261 8.2 MECHANISMS OF TRANSITION 262 8.2.1
TOLLMIEN-SCHLICHTING AND CROSSFLOW INSTABILITIES 262 8.2.2 LEADING EDGE
CONTAMINATION 263 8.3 E N -METHOD FOR THREE-DIMENSIONAL FLOWS 265 8.3.1
EIGENVALUE FORMULATIONS 265 8.3.2 THE ZARF 268 8.4 NUMERICAL SOLUTION OF
THE ORR-SOMMERFELD EQUATION FOR THREE-DIMENSIONAL FLOWS 271 8.4.1
EIGENVALUE PROCEDURE FOR ZARF 272 8.4.2 EIGENVALUE PROCEDURE FOR
TRANSITION 274 8.5 APPLICATION OF THE E N -METHOD WITH SADDLE-POINT
EIGENVALUE FORMULATION 275 8.5.1 INFINITE SWEPT WING DATA OF ARNAL AND
JUILLEN 275 8.5.2 PROLATE SPHEROID DATA OF MEIER AND KREPLIN 278 8.6
TRANSITION PREDICTION BY PARABOLIZED STABILITY EQUATIONS 286 8.6.1
N-FACTOR CALCULATIONS 288 8.6.2 INITIAL CONDITIONS 289 8.6.3 SAMPLE
CALCULATIONS 291 REFERENCES 295 PROBLEMS 297 CONTENTS XIII 9.
INTERACTIVE BOUNDARY-LAYER THEORY 307 9.1 INTRODUCTION 307 9.2 RATIONAL
BASIS OF THE INTERACTIVE BOUNDARY-LAYER THEORY 310 9.2.1 IBL MODEL 310
9.2.2 REDUCED MODEL FOR AN OUTER IRROTATIONAL FLOW 313 9.2.3
APPLICATIONS 313 9.3 INTERACTION PROBLEM 313 9.4 INVERSE BOUNDARY-LAYER
METHOD 315 9.4.1 TRANSFORMED EQUATIONS: GENERAL FORM 317 9.4.2 NUMERICAL
METHOD 317 9.4.3 COMPUTER PROGRAM 320 9.5 APPLICATIONS OF THE INVERSE
BOUNDARY-LAYER METHOD: TRAILING EDGE FLOW OF A FLAT PLATE 320 9.6
APPLICATIONS OF THE INTERACTIVE BOUNDARY-LAYER METHOD: AIRFOILS 325
9.6.1 AIRFOILS AT HIGH REYNOLDS NUMBERS 327 9.6.2 AIRFOILS AT LOW
REYNOLDS NUMBERS 329 9.7 APPLICATIONS OF THE INTERACTIVE BOUNDARY-LAYER
METHOD: MULTIELEMENT AIRFOILS 333 REFERENCES 335 PROBLEMS 336 10.
CONSERVATION EQUATIONS FOR MASS, MOMENTUM AND ENERGY . . 345 10.1
INTRODUCTION 345 10.2 NAVIER-STOKES EQUATIONS 345 10.3 REYNOLDS-AVERAGED
NAVIER-STOKES EQUATIONS 349 10.4 INVISCID FLOW EQUATIONS 350 10.5
BOUNDARY-LAYER EQUATIONS 351 10.5.1 TWO-DIMENSIONAL FLOWS 351 10.5.2
AXISYMMETRIC FLOWS 352 10.5.3 THREE-DIMENSIONAL FLOWS 352 10.6 INTEGRAL
EQUATIONS 353 10.6.1 CONTINUITY EQUATION 353 10.6.2 MOMENTUM EQUATION
354 10.6.3 ENERGY EQUATION 355 REFERENCES 355 PROBLEM 355 11.
TWO-DIMENSIONAL COMPRESSIBLE LAMINAR FLOWS 357 11.1 INTRODUCTION 357
11.2 TRANSFORMATIONS FOR COMPRESSIBLE FLOWS 357 11.2.1 FALKNER-SKAN
TRANSFORMATION 358 11.2.2 ILLINGWORTH STEWARTSON TRANSFORMATION 359 XIV
CONTENTS 11.3 SIMILAR FLOWS 362 11.4 RELATION BETWEEN COMPRESSIBLE AND
INCOMPRESSIBLE BOUNDARY-LAYER PARAMETERS 363 11.5 NONSIMILAR FLOWS 367
11.6 SHOCK-WAVE/SHEAR-LAYER INTERACTION 370 11.7 FREE INTERACTION AND
UPSTREAM INFLUENCE 375 11.8 A PRESCRIPTION FOR COMPUTING INTERACTIVE
FLOWS WITH SHOCKS . . . 380 REFERENCES 383 PROBLEMS 383 12.
TWO-DIMENSIONAL COMPRESSIBLE TURBULENT FLOWS 387 12.1 INTRODUCTION 387
12.2 TURBULENCE MODELS 388 12.2.1 ZERO-EQUATION MODELS 390 12.2.2
TURBULENCE MODELS BASED ON TRANSPORT EQUATIONS 391 12.3 INNER-LAYER
SIMILARITY ANALYSIS FOR VELOCITY AND TEMPERATURE PROFILES 393 12.4
TRANSFORMATIONS FOR COMPRESSIBLE TURBULENT FLOWS 395 12.5
TWO-DIMENSIONAL BOUNDARY LAYERS WITH ZERO PRESSURE GRADIENT 396 12.5.1
SKIN-FRICTION FORMULAS ON SMOOTH SURFACES 396 12.5.2 REYNOLDS ANALOGY
FACTOR 400 12.5.3 SKIN-FRICTION FORMULAS ON ROUGH SURFACES 401 12.6
NUMERICAL SOLUTION OF THE BOUNDARY-LAYER EQUATIONS: DIFFERENTIAL METHOD
403 12.7 SHOCK-WAVE/BOUNDARY-LAYER INTERACTION 408 REFERENCES 412
PROBLEMS 413 13. AN INTERACTIVE BOUNDARY-LAYER METHOD FOR
THREE-DIMENSIONAL FLOWS 417 13.1 INTRODUCTION 417 13.2 GOVERNING
EQUATIONS 418 13.2.1 INITIAL CONDITIONS 418 13.2.2 TURBULENCE MODELS 420
13.3 INTERACTION LAW 420 13.4 TRANSFORMED EQUATIONS 422 13.4.1
ATTACHMENT LINE EQUATIONS 424 13.4.2 QUASI-THREE-DIMENSIONAL
BOUNDARY-LAYER EQUATIONS . . . 425 13.5 NUMERICAL METHOD 426 13.6
MODELLING OF VISCOUS EFFECTS IN THREE-DIMENSIONAL INVISCID FLOWS 426
13.7 INTERFACE PROGRAM 427 13.7.1 GEOMETRIC PARAMETERS OF THE COORDINATE
SYSTEM 430 CONTENTS XV 13.7.2 CALCULATION OF INVISCID VELOCITY
COMPONENTS FOR BOUNDARY-LAYER GRID 432 13.8 APPLICATIONS OF THE
INTERACTIVE BOUNDARY-LAYER METHOD: SUBSONIC FLOWS 433 13.8.1 SAAB WING
435 13.8.2 RAE WING 438 13.8.3 MULTIELEMENT WINGS 442 13.9 TRANSONIC
FLOWS 446 13.9.1 0NERA-M6 WING 448 13.9.2 DOUGLAS WING/FUSELAGE
CONFIGURATION 449 13.9.3 CHALLENGER WING/BODY FUSELAGE CONFIGURATION 450
REFERENCES 453 14. TRANSITION IN THREE-DIMENSIONAL COMPRESSIBLE FLOWS
455 14.1 INTRODUCTION 455 14.2 LINEAR STABILITY THEORY 455 14.2.1
STABILITY EQUATIONS 456 14.2.2 INVISCID STABILITY THEORY 458 14.2.3
EXAMPLES OF RESULTS 463 14.3 FACTORS THAT INFLUENCE TRANSITION 468
14.3.1 EFFECTS OF NOISE 468 14.3.2 EFFECTS OF WALL COOLING 470 14.3.3
EFFECTS OF NOSE BLUNTNESS 470 14.3.4 EFFECTS OF SURFACE ROUGHNESS 472
14.3.5 LEADING EDGE CONTAMINATION 473 14.4 E N -METHOD FOR COMPRESSIBLE
FLOWS 473 14.5 APPLICATIONS OF THE E N -METHOD 476 REFERENCES 481
PROBLEMS 482 APPENDIX A COMPUTER PROGRAMS ON THE ACCOMPANYING CD-ROM 485
APPENDIX B COMPUTER PROGRAMS AVAILABLE FROM THE FIRST AUTHOR 487
APPENDIX C A BOUNDARY-LAYER PROGRAM FOR THREE-DIMENSIONAL COMPRESSIBLE
FLOWS ON WINGS 489 SUBJECT INDEX 495
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| adam_txt |
TUNCER CEBECI JEAN COUSTEIX MODELING AND COMPUTATION OF BOUNDARY-LAYER
FLOWS LAMINAR, TURBULENT AND TRANSITIONAL BOUNDARY LAYERS IN
INCOMPRESSIBLE AND COMPRESSIBLE FLOWS SECOND REVISED AND EXTENDED
EDITION WITH 224 FIGURES, 15 TABLES, 168 PROBLEMS AND A CD-ROM HORIZONS
PUBLISHING ^J SPRINGER CONTENTS 1. INTRODUCTION ^ 1.1 SKIN-FRICTION DRAG
REDUCTION 3 1.1.1 LAMINAR FLOW CONTROL 4 1.1.2 CALCULATIONS FOR NLF AND
HLFC WINGS 7 1.2 PREDICTION OF THE MAXIMUM LIFT COEFFICIENT OF
MULTIELEMENT WINGS N REFERENCES 1 N 2. CONSERVATION EQUATIONS FOR MASS
AND MOMENTUM FOR INCOMPRESSIBLE FLOWS YJ 2.1 INTRODUCTION 27 2.2
NAVIER-STOKES EQUATIONS LG 2.3 REYNOLDS-AVERAGED NAVIER-STOKES EQUATIONS
20 2.4 INVISCID FLOW EQUATIONS 22 REFERENCES 93 PROBLEMS 24 3.
BOUNDARY-LAYER EQUATIONS FOR INCOMPRESSIBLE FLOWS 27 3.1 TWO-DIMENSIONAL
FLOWS 27 3.1.1 LAMINAR FLOWS 27 3.1.2 TURBULENT FLOWS 29 3.2
AXISYMMETRIC FLOWS 30 3.3 MOMENTUM INTEGRAL EQUATION 31 3.3.1
TWO-DIMENSIONAL FLOWS 32 3.3.2 AXISYMMETRIC FLOWS 33 3.4 BOUNDARY AND
INITIAL CONDITIONS 34 REFERENCES O^ PROBLEMS OA X CONTENTS 4.
TWO-DIMENSIONAL INCOMPRESSIBLE LAMINAR FLOWS 43 4.1 INTRODUCTION 43 4.2
SIMILAR FLOWS: EXTERNAL FLOWS 44 4.2.1 SIMILARITY CONCEPT 44 4.2.2
FALKNER-SKAN EQUATION 44 4.2.3 SOLUTIONS OF THE FALKNER-SKAN EQUATION 48
4.3 SIMILAR FLOWS: FREE-SHEAR FLOWS 53 4.3.1 AXISYMMETRIC JET 53 4.3.2
TWO-DIMENSIONAL WAKE 56 4.3.3 MIXING LAYER BETWEEN TWO UNIFORM STREAMS
59 4.3.4 POWER LAWS FOR THE WIDTH AND FOR THE CENTERLINE VELOCITY OF
SIMILAR FREE SHEAR LAYERS 61 4.4 NUMERICAL SOLUTION OF THE
BOUNDARY-LAYER EQUATIONS: INTEGRAL FORM 62 4.4.1 POHLHAUSEN METHOD 62
4.4.2 THWAITES' METHOD 64 4.5 NUMERICAL SOLUTION OF THE BOUNDARY-LAYER
EQUATIONS: DIFFERENTIAL FORM 66 4.5.1 NUMERICAL FORMULATION 69 4.5.2
NEWTON'S METHOD 70 4.5.3 BLOCK-ELIMINATION METHOD 72 4.6 APPLICATIONS OF
BLP2 TO EXTERNAL FLOWS 73 4.6.1 AIRFOIL FLOW 74 4.6.2 ELLIPSE FLOW 75
4.6.3 PROLATE SPHEROID FLOW 77 REFERENCES 79 PROBLEMS 80 5. TRANSITION
IN TWO-DIMENSIONAL INCOMPRESSIBLE FLOWS 105 5.1 INTRODUCTION 105 5.2
TRANSITION PROCESS 106 5.3 LINEAR STABILITY THEORY 109 5.3.1 BOUNDARY
CONDITIONS 112 5.3.2 PROPERTIES OF THE ORR-SOMMERFELD EQUATION FOR
TWO-DIMENSIONAL FLOWS 113 5.4 PREDICTION OF TRANSITION 117 5.4.1
EMPIRICAL CORRELATIONS 117 5.4.2 E N -METHOD 119 5.4.3 H-R X METHOD 121
5.5 FACTORS THAT INFLUENCE TRANSITION 122 5.5.1 EFFECTS OF FREESTREAM
TURBULENCE AND NOISE 122 5.5.2 EFFECTS OF PRESSURE GRADIENT 124 CONTENTS
XI 5.5.3 EFFECTS OF HEAT TRANSFER 127 5.5.4 EFFECTS OF SUCTION 130 5.5.5
EFFECTS OF SURFACE ROUGHNESS 133 5.5.6 EFFECTS OF SURFACE CURVATURE 135
5.6 NUMERICAL SOLUTION OF THE ORR-SOMMERFELD EQUATION 136 5.6.1
EIGENVALUE PROCEDURE FOR TWO-DIMENSIONAL FLOWS 139 5.6.2 EIGENVALUE
PROCEDURE FOR TRANSITION 143 5.7 APPLICATIONS OF STP 144 5.7.1 STABILITY
DIAGRAMS FOR BLASIUS FLOW 145 5.7.2 TRANSITION PREDICTION 146 REFERENCES
149 PROBLEMS 151 6. TWO-DIMENSIONAL INCOMPRESSIBLE TURBULENT FLOWS 163
6.1 INTRODUCTION 163 6.2 COMPOSITE NATURE OF A TURBULENT BOUNDARY-LAYER
163 6.2.1 THE INNER LAYER: SMOOTH SURFACE 164 6.2.2 THE INNER LAYER:
ROUGH SURFACE 166 6.2.3 THE OUTER LAYER 169 6.2.4 SUMMARY 171 6.2.5 THE
WHOLE LAYER 171 6.3 TURBULENCE MODELS 175 6.3.1 ZERO-EQUATION MODELS 176
6.3.2 TURBULENCE MODELS BASED ON TRANSPORT EQUATIONS 179 6.4 TURBULENT
BOUNDARY-LAYERS ON SMOOTH AND ROUGH SURFACES WITH ZERO PRESSURE GRADIENT
186 6.4.1 SMOOTH FLAT PLATE 187 6.4.2 ROUGH FLAT PLATE 190 6.5 TURBULENT
BOUNDARY-LAYERS WITH PRESSURE GRADIENT: INTEGRAL METHODS 192 6.6
TURBULENT BOUNDARY-LAYERS WITH PRESSURE GRADIENT: DIFFERENTIAL METHODS
195 6.7 FREE SHEAR LAYERS 196 6.7.1 AXISYMMETRIC JET 196 6.7.2
TWO-DIMENSIONAL WAKE 199 6.7.3 POWER LAWS FOR THE WIDTH AND THE
CENTERLINE VELOCITY OF SIMILAR FREE SHEAR LAYERS 201 REFERENCES 201
PROBLEMS 203 7. THREE-DIMENSIONAL INCOMPRESSIBLE LAMINAR AND TURBULENT
FLOWS 209 7.1 INTRODUCTION 209 XII CONTENTS 7.2 BOUNDARY-LAYER EQUATIONS
FOR THREE-DIMENSIONAL FLOWS 210 7.2.1 CARTESIAN COORDINATE SYSTEM 211
7.2.2 STREAMLINE COORDINATE SYSTEM 213 7.2.3 BODY-ORIENTED COORDINATE
SYSTEM 215 7.3 INITIAL CONDITIONS 217 7.4 TURBULENCE MODELS 219 7.5
TRANSFORMED EQUATIONS 223 7.6 NUMERICAL SOLUTION OF THE BOUNDARY-LAYER
EQUATIONS: DIFFERENTIAL FORM 225 7.6.1 FLOWS WITHOUT REVERSAL: STANDARD
BOX 228 7.6.2 FLOWS WITH REVERSAL: CHARACTERISTIC BOX 231 7.6.3
CALCULATION OF GEOMETRIC PARAMETERS 233 7.7 EVALUATION OF A TURBULENCE
MODEL FOR THREE-DIMENSIONAL FLOWS. 235 7.7.1 INFINITE SWEPT WING FLOWS
236 7.7.2 FULL THREE-DIMENSIONAL FLOWS 243 7.8 BOUNDARY-LAYER PROGRAM
FOR THREE-DIMENSIONAL FLOWS 247 REFERENCES 250 PROBLEMS 252 8.
TRANSITION IN THREE-DIMENSIONAL INCOMPRESSIBLE FLOWS 261 8.1
INTRODUCTION 261 8.2 MECHANISMS OF TRANSITION 262 8.2.1
TOLLMIEN-SCHLICHTING AND CROSSFLOW INSTABILITIES 262 8.2.2 LEADING EDGE
CONTAMINATION 263 8.3 E N -METHOD FOR THREE-DIMENSIONAL FLOWS 265 8.3.1
EIGENVALUE FORMULATIONS 265 8.3.2 THE ZARF 268 8.4 NUMERICAL SOLUTION OF
THE ORR-SOMMERFELD EQUATION FOR THREE-DIMENSIONAL FLOWS 271 8.4.1
EIGENVALUE PROCEDURE FOR ZARF 272 8.4.2 EIGENVALUE PROCEDURE FOR
TRANSITION 274 8.5 APPLICATION OF THE E N -METHOD WITH SADDLE-POINT
EIGENVALUE FORMULATION 275 8.5.1 INFINITE SWEPT WING DATA OF ARNAL AND
JUILLEN 275 8.5.2 PROLATE SPHEROID DATA OF MEIER AND KREPLIN 278 8.6
TRANSITION PREDICTION BY PARABOLIZED STABILITY EQUATIONS 286 8.6.1
N-FACTOR CALCULATIONS 288 8.6.2 INITIAL CONDITIONS 289 8.6.3 SAMPLE
CALCULATIONS 291 REFERENCES 295 PROBLEMS 297 CONTENTS XIII 9.
INTERACTIVE BOUNDARY-LAYER THEORY 307 9.1 INTRODUCTION 307 9.2 RATIONAL
BASIS OF THE INTERACTIVE BOUNDARY-LAYER THEORY 310 9.2.1 IBL MODEL 310
9.2.2 REDUCED MODEL FOR AN OUTER IRROTATIONAL FLOW 313 9.2.3
APPLICATIONS 313 9.3 INTERACTION PROBLEM 313 9.4 INVERSE BOUNDARY-LAYER
METHOD 315 9.4.1 TRANSFORMED EQUATIONS: GENERAL FORM 317 9.4.2 NUMERICAL
METHOD 317 9.4.3 COMPUTER PROGRAM 320 9.5 APPLICATIONS OF THE INVERSE
BOUNDARY-LAYER METHOD: TRAILING EDGE FLOW OF A FLAT PLATE 320 9.6
APPLICATIONS OF THE INTERACTIVE BOUNDARY-LAYER METHOD: AIRFOILS 325
9.6.1 AIRFOILS AT HIGH REYNOLDS NUMBERS 327 9.6.2 AIRFOILS AT LOW
REYNOLDS NUMBERS 329 9.7 APPLICATIONS OF THE INTERACTIVE BOUNDARY-LAYER
METHOD: MULTIELEMENT AIRFOILS 333 REFERENCES 335 PROBLEMS 336 10.
CONSERVATION EQUATIONS FOR MASS, MOMENTUM AND ENERGY . . 345 10.1
INTRODUCTION 345 10.2 NAVIER-STOKES EQUATIONS 345 10.3 REYNOLDS-AVERAGED
NAVIER-STOKES EQUATIONS 349 10.4 INVISCID FLOW EQUATIONS 350 10.5
BOUNDARY-LAYER EQUATIONS 351 10.5.1 TWO-DIMENSIONAL FLOWS 351 10.5.2
AXISYMMETRIC FLOWS 352 10.5.3 THREE-DIMENSIONAL FLOWS 352 10.6 INTEGRAL
EQUATIONS 353 10.6.1 CONTINUITY EQUATION 353 10.6.2 MOMENTUM EQUATION
354 10.6.3 ENERGY EQUATION 355 REFERENCES 355 PROBLEM 355 11.
TWO-DIMENSIONAL COMPRESSIBLE LAMINAR FLOWS 357 11.1 INTRODUCTION 357
11.2 TRANSFORMATIONS FOR COMPRESSIBLE FLOWS 357 11.2.1 FALKNER-SKAN
TRANSFORMATION 358 11.2.2 ILLINGWORTH STEWARTSON TRANSFORMATION 359 XIV
CONTENTS 11.3 SIMILAR FLOWS 362 11.4 RELATION BETWEEN COMPRESSIBLE AND
INCOMPRESSIBLE BOUNDARY-LAYER PARAMETERS 363 11.5 NONSIMILAR FLOWS 367
11.6 SHOCK-WAVE/SHEAR-LAYER INTERACTION 370 11.7 FREE INTERACTION AND
UPSTREAM INFLUENCE 375 11.8 A PRESCRIPTION FOR COMPUTING INTERACTIVE
FLOWS WITH SHOCKS . . . 380 REFERENCES 383 PROBLEMS 383 12.
TWO-DIMENSIONAL COMPRESSIBLE TURBULENT FLOWS 387 12.1 INTRODUCTION 387
12.2 TURBULENCE MODELS 388 12.2.1 ZERO-EQUATION MODELS 390 12.2.2
TURBULENCE MODELS BASED ON TRANSPORT EQUATIONS 391 12.3 INNER-LAYER
SIMILARITY ANALYSIS FOR VELOCITY AND TEMPERATURE PROFILES 393 12.4
TRANSFORMATIONS FOR COMPRESSIBLE TURBULENT FLOWS 395 12.5
TWO-DIMENSIONAL BOUNDARY LAYERS WITH ZERO PRESSURE GRADIENT 396 12.5.1
SKIN-FRICTION FORMULAS ON SMOOTH SURFACES 396 12.5.2 REYNOLDS ANALOGY
FACTOR 400 12.5.3 SKIN-FRICTION FORMULAS ON ROUGH SURFACES 401 12.6
NUMERICAL SOLUTION OF THE BOUNDARY-LAYER EQUATIONS: DIFFERENTIAL METHOD
403 12.7 SHOCK-WAVE/BOUNDARY-LAYER INTERACTION 408 REFERENCES 412
PROBLEMS 413 13. AN INTERACTIVE BOUNDARY-LAYER METHOD FOR
THREE-DIMENSIONAL FLOWS 417 13.1 INTRODUCTION 417 13.2 GOVERNING
EQUATIONS 418 13.2.1 INITIAL CONDITIONS 418 13.2.2 TURBULENCE MODELS 420
13.3 INTERACTION LAW 420 13.4 TRANSFORMED EQUATIONS 422 13.4.1
ATTACHMENT LINE EQUATIONS 424 13.4.2 QUASI-THREE-DIMENSIONAL
BOUNDARY-LAYER EQUATIONS . . . 425 13.5 NUMERICAL METHOD 426 13.6
MODELLING OF VISCOUS EFFECTS IN THREE-DIMENSIONAL INVISCID FLOWS 426
13.7 INTERFACE PROGRAM 427 13.7.1 GEOMETRIC PARAMETERS OF THE COORDINATE
SYSTEM 430 CONTENTS XV 13.7.2 CALCULATION OF INVISCID VELOCITY
COMPONENTS FOR BOUNDARY-LAYER GRID 432 13.8 APPLICATIONS OF THE
INTERACTIVE BOUNDARY-LAYER METHOD: SUBSONIC FLOWS 433 13.8.1 SAAB WING
435 13.8.2 RAE WING 438 13.8.3 MULTIELEMENT WINGS 442 13.9 TRANSONIC
FLOWS 446 13.9.1 0NERA-M6 WING 448 13.9.2 DOUGLAS WING/FUSELAGE
CONFIGURATION 449 13.9.3 CHALLENGER WING/BODY FUSELAGE CONFIGURATION 450
REFERENCES 453 14. TRANSITION IN THREE-DIMENSIONAL COMPRESSIBLE FLOWS
455 14.1 INTRODUCTION 455 14.2 LINEAR STABILITY THEORY 455 14.2.1
STABILITY EQUATIONS 456 14.2.2 INVISCID STABILITY THEORY 458 14.2.3
EXAMPLES OF RESULTS 463 14.3 FACTORS THAT INFLUENCE TRANSITION 468
14.3.1 EFFECTS OF NOISE 468 14.3.2 EFFECTS OF WALL COOLING 470 14.3.3
EFFECTS OF NOSE BLUNTNESS 470 14.3.4 EFFECTS OF SURFACE ROUGHNESS 472
14.3.5 LEADING EDGE CONTAMINATION 473 14.4 E N -METHOD FOR COMPRESSIBLE
FLOWS 473 14.5 APPLICATIONS OF THE E N -METHOD 476 REFERENCES 481
PROBLEMS 482 APPENDIX A COMPUTER PROGRAMS ON THE ACCOMPANYING CD-ROM 485
APPENDIX B COMPUTER PROGRAMS AVAILABLE FROM THE FIRST AUTHOR 487
APPENDIX C A BOUNDARY-LAYER PROGRAM FOR THREE-DIMENSIONAL COMPRESSIBLE
FLOWS ON WINGS 489 SUBJECT INDEX 495 |
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| author | Cebeci, Tuncer 1934- Cousteix, Jean 1947- |
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| author_facet | Cebeci, Tuncer 1934- Cousteix, Jean 1947- |
| author_role | aut aut |
| author_sort | Cebeci, Tuncer 1934- |
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| building | Verbundindex |
| bvnumber | BV023187688 |
| classification_rvk | UF 4200 |
| classification_tum | MTA 380f MTA 450f |
| ctrlnum | (OCoLC)634954733 (DE-599)BVBBV023187688 |
| discipline | Physik |
| discipline_str_mv | Physik |
| edition | 2., rev. and extended ed. |
| format | Book |
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| id | DE-604.BV023187688 |
| illustrated | Illustrated |
| index_date | 2024-07-02T20:03:42Z |
| indexdate | 2024-07-09T21:12:36Z |
| institution | BVB |
| isbn | 354024459X 0966846192 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016374136 |
| oclc_num | 634954733 |
| open_access_boolean | |
| owner | DE-91G DE-BY-TUM DE-634 |
| owner_facet | DE-91G DE-BY-TUM DE-634 |
| physical | XV, 502 S. graph. Darst. 1 CD-ROM (12 cm) |
| publishDate | 2005 |
| publishDateSearch | 2005 |
| publishDateSort | 2005 |
| publisher | Horizons Publ. [u.a.] |
| record_format | marc |
| spelling | Cebeci, Tuncer 1934- Verfasser (DE-588)121620980 aut Modeling and computation of boundary-layer flows laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM Tuncer Cebeci ; Jean Cousteix 2., rev. and extended ed. Long Beach, Calif. [u.a.] Horizons Publ. [u.a.] 2005 XV, 502 S. graph. Darst. 1 CD-ROM (12 cm) txt rdacontent n rdamedia nc rdacarrier Inkompressible Strömung (DE-588)4129759-3 gnd rswk-swf Grenzschichtströmung (DE-588)4137696-1 gnd rswk-swf Inkompressible Strömung (DE-588)4129759-3 s DE-604 Grenzschichtströmung (DE-588)4137696-1 s Cousteix, Jean 1947- Verfasser (DE-588)120793156 aut HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016374136&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Cebeci, Tuncer 1934- Cousteix, Jean 1947- Modeling and computation of boundary-layer flows laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM Inkompressible Strömung (DE-588)4129759-3 gnd Grenzschichtströmung (DE-588)4137696-1 gnd |
| subject_GND | (DE-588)4129759-3 (DE-588)4137696-1 |
| title | Modeling and computation of boundary-layer flows laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM |
| title_auth | Modeling and computation of boundary-layer flows laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM |
| title_exact_search | Modeling and computation of boundary-layer flows laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM |
| title_exact_search_txtP | Modeling and computation of boundary-layer flows laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM |
| title_full | Modeling and computation of boundary-layer flows laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM Tuncer Cebeci ; Jean Cousteix |
| title_fullStr | Modeling and computation of boundary-layer flows laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM Tuncer Cebeci ; Jean Cousteix |
| title_full_unstemmed | Modeling and computation of boundary-layer flows laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM Tuncer Cebeci ; Jean Cousteix |
| title_short | Modeling and computation of boundary-layer flows |
| title_sort | modeling and computation of boundary layer flows laminar turbulent and transitional boundary layers in incompressible flows with 224 figures 15 tables 168 problems and a cd rom |
| title_sub | laminar, turbulent and transitional boundary layers in incompressible flows ; with 224 figures, 15 tables, 168 problems and a CD-ROM |
| topic | Inkompressible Strömung (DE-588)4129759-3 gnd Grenzschichtströmung (DE-588)4137696-1 gnd |
| topic_facet | Inkompressible Strömung Grenzschichtströmung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016374136&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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