Verfügbarkeit: Incompressible flow

Incompressible flow:

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Bibliographische Detailangaben
1. Verfasser:	Panton, Ronald L. 1933- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Wiley 1996
Ausgabe:	2. ed.
Schriftenreihe:	A Wiley-Interscience publication
Schlagworte:	Inkompressible Strömung Strömungsmechanik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 837 S. Ill., graph. Darst.
ISBN:	0471593583

Internformat

MARC


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Datensatz im Suchindex

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adam_text	% 1 * ! . * * * INCOMPRESSIBLE FLOW SECOND EDITION RONALD L. PANTON MECHANICAL ENGINEERING DEPARTMENT UNIVERSITY OF TEXAS AUSTIN A WILEY-INTERSCIENCE PUBLICATION JOHN WILEY & SONS, INC. NEW YORK * CHICHESTER * BRISBANE * TORONTO * SINGAPORE CONTENTS PREFACE V PREFACE TO THE FIRST EDITION VII 1. CONTINUUM MECHANICS 1 3. 1.1 1.2 1.3 1.4 1.5 1.6 HERM 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 2.11 2.12 R ECTOR 3.1 3.2 3.3 3.4 THE CONTINUUM ASSUMPTION FUNDAMENTAL CONCEPTS, DEFINITIONS, AND LAWS SPACE AND TIME DENSITY, VELOCITY, AND INTERNAL ENERGY THE INTERFACE BETWEEN PHASES CONCLUSIONS PROBLEMS LODYNAMICS SYSTEMS, PROPERTIES, AND PROCESSES THE INDEPENDENT VARIABLES TEMPERATURE AND ENTROPY FUNDAMENTAL EQUATIONS OF THERMODYNAMICS EULER S EQUATION FOR HOMOGENEOUS FUNCTIONS THE GIBBS-DUHEM EQUATION INTENSIVE FORMS OF BASIC EQUATIONS DIMENSIONS OF TEMPERATURE AND ENTROPY WORKING EQUATIONS THE IDEAL GAS THE INCOMPRESSIBLE SUBSTANCE CONCLUSION PROBLEMS CALCULUS AND INDEX NOTATION INDEX NOTATION RULES DEFINITION OF VECTORS AND TENSORS SPECIAL SYMBOLS AND ISOTROPIC TENSORS DIRECTION COSINES AND THE LAW OF COSINES 3 4 6 8 12 14 16 18 18 19 20 22 23 24 24 25 26 27 30 31 31 33 34 36 37 39 IX K CONTENTS 3.5 ALGEBRA WITH VECTORS 41 3.6 SYMMETRIC AND ANTISYMMETRIC TENSORS 42 3.7 ALGEBRA WITH TENSORS 45 3.8 VECTOR CROSS-PRODUCT 47 3.9 ALTERNATIVE DEFINITIONS OF VECTORS AND TENSORS 48 3.10 PRINCIPAL AXES AND VALUES 50 3.11 DERIVATIVE OPERATIONS ON VECTOR FIELDS 52 3.12 INTEGRAL FORMULAS OF GAUSS AND STOKES 55 3.13 LEIBNITZ S THEOREM 58 3.14 CONCLUSION 60 PROBLEMS 60 4. KINEMATICS OF LOCAL FLUID MOTION 63 4.1 LAGRANGIAN VIEWPOINT 63 4.2 EULERIAN VIEWPOINT 67 4.3 SUBSTANTIAL DERIVATIVE 69 4.4 DECOMPOSITION OF MOTION 70 4.5 ELEMENTARY MOTIONS IN A LINEAR SHEAR FLOW 75 4.6 PROOF OF VORTICITY CHARACTERISTICS 77 4.7 RATE-OF-STRAIN CHARACTERISTICS 79 4.8 RATE OF EXPANSION 81 4.9 STREAMLINE COORDINATES 82 4.10 CONCLUSION 84 PROBLEMS 84 5. BASIC LAWS 87 5.1 CONTINUITY EQUATION 87 5.2 MOMENTUM EQUATION 91 5.3 SURFACE FORCES 93 5.4 STRESS-TENSOR DERIVATION 94 5.5 INTERPRETATION OF THE STRESS-TENSOR COMPONENTS 96 5.6 PRESSURE AND VISCOUS STRESS TENSOR 97 5.7 DIFFERENTIAL MOMENTUM EQUATION 99 5.8 ANGULAR-MOMENTUM EQUATION AND SYMMETRY OF T TJ 105 5.9 ENERGY EQUATION 106 5.10 MECHANICAL-AND THERMAL-ENERGY EQUATIONS 110 5.11 ENERGY EQUATION WITH TEMPERATURE AS DEPENDENT VARIABLE 111 5.12 SECOND LAW OF THERMODYNAMICS 112 5.13 INTEGRAL FORM OF THE CONTINUITY EQUATION 113 5.14 INTEGRAL FORM OF THE MOMENTUM EQUATION 115 5.15 MOMENTUM EQUATION FOR A DEFORMABLE PARTICLE OF VARIABLE MASS 118 5.16 OTHER LAWS IN INTEGRAL FORM: ENERGY EQUATION 122 CONTENTS XI 5.17 JUMP EQUATIONS AT INTERFACES 123 5.18 CONCLUSION 125 PROBLEMS 125 6. NEWTONIAN FLUIDS AND THE NAVIER-STOKES EQUATIONS 129 6.1 NEWTON S VISCOSITY LAW 129 6.2 MOLECULAR MODEL OF VISCOUS EFFECTS 133 6.3 NON-NEWTONIAN LIQUIDS 137 6.4 THE NO-SLIP CONDITION 140 6.5 FOURIER S HEAT-CONDUCTION LAW 143 6.6 NAVIER-STOKES EQUATIONS 145 6.7 CONCLUSION 146 PROBLEMS 146 7. SOME INCOMPRESSIBLE-FLOW PATTERNS 148 7.1 PRESSURE-DRIVEN FLOW IN A SLOT 148 7.2 MECHANICAL ENERGY AND BERNOULLI EQUATIONS 154 7.3 PLANE COUETTE FLOW 158 7.4 PRESSURE-DRIVEN FLOW IN A SLOT WITH A MOVING WALL 160 7.5 DOUBLE FALLING FILM ON A WALL 161 7.6 ROTARY VISCOUS COUPLING; OUTER SOLUTION 164 7.7 THE RAYLEIGH PROBLEM 166 7.8 CONCLUSION 172 PROBLEMS 172 8. DIMENSIONAL ANALYSIS 175 8.1 MEASUREMENT AND DIMENSIONS 175 8.2 VARIABLES AND FUNCTIONS 178 8.3 THE PI THEOREM 181 8.4 PUMP OR BLOWER ANALYSIS 185 8.5 NUMBER OF PRIMARY DIMENSIONS 189 8.6 PROOF OF BRIDGMAN S EQUATION 192 8.7 PROOF OF THE PI THEOREM 194 8.8 DYNAMIC SIMILARITY 198 8.9 SIMILARITY WITH GEOMETRIC DISTORTION 199 8.10 NONDIMENSIONAL FORMULATION OF PHYSICAL PROBLEMS 203 8.11 CONCLUSION 209 PROBLEMS 209 9. COMPRESSIBLE FLOW 212 9.1 COMPRESSIBLE COUETTE FLOW: ADIABATIC WALL 212 9.2 FLOW WITH POWER-LAW TRANSPORT PROPERTIES 216 9.3 COMPRESSIBLE WAVES 218 XII CONTENTS 9.4 CONCLUSION 226 PROBLEMS 226 10. INCOMPRESSIBLE FLOW 228 10.1 CHARACTERIZATION 228 10.2 INCOMPRESSIBLE FLOW AS A LOW MACH NUMBER FLOW WITH ADIABATIC WALLS 230 10.3 NONDIMENSIONAL PROBLEM STATEMENT 231 10.4 CHARACTERISTICS OF INCOMPRESSIBLE FLOW 236 10.5 SPLITTING THE PRESSURE INTO KINETIC AND HYDROSTATIC PARTS 239 10.6 MATHEMATICAL ASPECTS OF THE LIMIT PROCESS M 2 0 242 10.7 INVARIANCE OF INCOMPRESSIBLE-FLOW EQUATIONS UNDER UNSTEADY MOTION 243 10.8 LOW-MACH-NUMBER FLOWS WITH CONSTANT-TEMPERATURE WALLS 246 10.9 THE ENERGY-EQUATION PARADOX 250 10.10 CONCLUSION 252 PROBLEMS 253 11. SOME SOLUTIONS OF THE NAVIER-STOKES EQUATIONS 254 11.1 PRESSURE-DRIVEN FLOW IN TUBES OF VARIOUS CROSS SECTIONS: AN ELLIPTICAL TUBE 11.2 FLOW IN A RECTANGULAR TUBE 11.3 A CHANNEL WITH LONGITUDINAL RIBS 11.4 STOKES OSCILLATING PLATE 11.5 WALL UNDER AN OSCILLATING FREE STREAM 11.6 TRANSIENT FOR STOKES OSCILLATING PLATE 11.7 FLOW IN A SLOT WITH AN OSCILLATING PRESSURE GRADIENT 11.8 DECAY OF LINE VORTICES (OSEEN VORTEX) 11.9 PLANE STAGNATION-POINT FLOW (HIEMENZ FLOW) 11.10 BURGERS VORTEX 11.11 COMPLETE SOLUTION FOR THE ROTARY COUPLING 11.12 VON KARMAN VISCOUS PUMP 11.13 CONCLUSION PROBLEMS 12. STREAMFUNCTIONS AND THE VELOCITY POTENTIAL 12.1 STREAMLINES 12.2 STREAMFUNCTION FOR PLANE FLOWS 12.3 FLOW IN A SLOT WITH POROUS WALLS 12.4 STREAMLINES AND STREAMSURFACES FOR A THREE- DIMENSIONAL FLOW CONTENTS XIH 12.5 VELOCITY POTENTIAL AND UNSTEADY BERNOULLI EQUATION 317 12.6 FLOW CAUSED BY A SPHERE WITH VARIABLE RADIUS 319 12.7 CONCLUSION 321 PROBLEMS 322 13. VORTICITY DYNAMICS 324 13.1 VORTICITY 324 13.2 KINEMATIC RESULTS CONCERNING VORTICITY 326 13.3 VORTICITY EQUATION 328 13.4 VORTICITY DIFFUSION 330 13.5 VORTICITY INTENSIFICATION BY STRAINING VORTEX LINES 331 13.6 HILL S SPHERICAL VORTEX 333 13.7 PRODUCTION OF VORTICITY AT A STATIONARY WALL 335 13.8 PRODUCTION OF VORTICITY AT A TRANSLATING WALL 338 13.9 HELMHOLTZ S LAWS FOR INVISCID FLOW 339 13.10 KELVIN S THEOREM 341 13.11 INVISCID MOTION OF POINT VORTICES 342 13.12 RECONNECTION OF VORTEX LINES 344 13.13 DEVELOPMENT OF TYPICAL VORTICITY DISTRIBUTIONS 346 13.14 VORTEX BREAKDOWN 352 13.15 CONCLUSION 356 PROBLEMS 357 14. FLOWS AT MODERATE REYNOLDS NUMBERS 359 14.1 SOME UNUSUAL FLOW PATTERNS 360 14.2 ENTRANCE FLOWS 363 14.3 ENTRANCE FLOW INTO A CASCADE OF PLATES: COMPUTER SOLUTION BY THE STREAMFUNCTION-VORTICITY METHOD 364 14.4 ENTRANCE FLOW INTO A CASCADE OF PLATES: PRESSURE SOLUTION 376 14.5 ENTRANCE FLOW INTO A CASCADE OF PLATES: RESULTS 378 14.6 FLOW AROUND A CIRCULAR CYLINDER 384 14.7 CONCLUSION 400 PROBLEMS 400 15. ASYMPTOTIC ANALYSIS METHODS 402 15.1 OSCILLATION OF A GAS BUBBLE IN A LIQUID 402 15.2 ORDER SYMBOLS, GAUGE FUNCTIONS, AND ASYMPTOTIC EXPANSIONS 405 15.3 INVISCID FLOW OVER, A WAVY WALL 409 15.4 NONUNIFORM EXPANSIONS: FRIEDRICH S PROBLEM 413 15.5 THE MATCHING PROCESS 416 15.6 COMPOSITE EXPANSIONS: ACCURACY 421 XIV CONTENTS 15.7 CHARACTERISTICS OF OVERLAP REGIONS 424 15.8 LAGERSTROM S PROBLEMS 430 15.9 CONCLUSION 434 PROBLEMS 435 16. CHARACTERISTICS OF HIGH REYNOLDS NUMBER FLOW 437 16.1 PHYSICAL MOTIVATION 437 16.2 INVISCID MAIN FLOWS: EULER EQUATIONS 439 16.3 PRESSURE CHANGES IN STEADY FLOWS: BERNOULLI EQUATIONS 443 16.4 BOUNDARY LAYERS 447 16.5 CONCLUSION 458 PROBLEMS 459 17. KINEMATIC DECOMPOSITION OF FLOW FIELDS 460 17.1 GENERAL APPROACH 460 17.2 HELMHOLTZ S DECOMPOSITION 461 17.3 LINE VORTEX AND VORTEX SHEET 463 17.4 COMPLEX-LAMELLAR DECOMPOSITION 466 17.5 CONCLUSION 469 PROBLEMS 469 18. IDEAL FLOWS IN A PLANE 471 18.1 PROBLEM FORMULATION FOR PLANE IDEAL FLOWS 472 18.2 SIMPLE PLANE FLOWS 476 18.3 LINE SOURCE AND LINE VORTEX 479 18.4 FLOW OVER A NOSE OR A CLIFF 482 18.5 DOUBLETS 489 18.6 CYLINDER IN A STREAM 492 18.7 CYLINDER WITH CIRCULATION IN A UNIFORM STREAM 494 18.8 LIFT AND DRAG ON TWO-DIMENSIONAL SHAPES 497 18.9 MAGNUS EFFECT 500 18.10 CONFORMAL TRANSFORMATIONS 502 18.11 JOUKOWSKI TRANSFORMATION, AIRFOIL GEOMETRY 506 18.12 KUTTA CONDITION 512 18.13 FLOW OVER A JOUKOWSKI AIRFOIL: AIRFOIL LIFT 514 18.14 A NUMERICAL METHOD FOR AIRFOILS 522 18.15 ACTUAL AIRFOILS 525 18.16 SCHWARZ-CHRISTOFFEL TRANSFORMATION 528 18.17 DIFFUSER OR CONTRACTION FLOW 530 18.18 GRAVITY WAVES IN LIQUIDS 536 18.19 CONCLUSION 542 PROBLEMS 542 CONTENTS XV 19. AXISYMMETRIC AND THREE-DIMENSIONAL IDEAL FLOWS 546 19.1 GENERAL EQUATIONS AND CHARACTERISTICS OF THREE- DIMENSIONAL IDEAL FLOWS 546 19.2 SWIRLING FLOW TURNED INTO AN ANNULUS 548 19.3 FLOW OVER A WEIR 550 19.4 POINT SOURCE 552 19.5 RANKINE NOSE SHAPE 554 19.6 EXPERIMENTS ON THE NOSE DRAG OF SLENDER SHAPES 556 19.7 FLOW FROM A DOUBLET 559 19.8 FLOW OVER A SPHERE 561 19.9 KINETIC ENERGY 564 19.10 WAKE DRAG OF BODIES 565 19.11 INDUCED DRAG: DRAG DUE TO LIFT 567 19.12 LIFTING-LINE THEORY 572 19.13 ADDED MASS OF ACCELERATING BODIES 573 19.14 CONCLUSION 579 PROBLEMS 579 20. BOUNDARY LAYERS 581 20.1 BLASIUS FLOW OVER A FLAT PLATE 581 20.2 DISPLACEMENT THICKNESS 587 20.3 VON KARMAN MOMENTUM INTEGRAL 589 20.4 VON KARMAN-POHLHAUSEN APPROXIMATE METHOD 591 20.5 FALKNER-SKAN SIMILARITY SOLUTIONS 593 20.6 ARBITRARY TWO-DIMENSIONAL LAYERS: CRANK-NICOLSON DIFFERENCE METHOD 599 20.7 VERTICAL VELOCITY 609 20.8 JOUKOWSKI-AIRFOIL BOUNDARY LAYER 612 20.9 BOUNDARY LAYER ON A BRIDGE PILING 616 20.10 PLANE BOUNDARY-LAYER SEPARATION 619 20.11 AXISYMMETRIC BOUNDARY LAYERS 622 20.12 JETS 625 20.13 FAR WAKE OF NONLIFTING BODIES 628 20.14 FREE SHEAR LAYERS 632 20.15 UNSTEADY AND ERUPTING BOUNDARY LAYERS 634 20.16 ENTRANCE FLOW INTO A CASCADE 638 20.17 THREE-DIMENSIONAL BOUNDARY LAYERS 641 20.18 BOUNDARY LAYER WITH A CONSTANT TRANSVERSE PRESSURE GRADIENT 645 20.19 HOWARTH S STAGNATION POINT 650 20.20 THREE-DIMENSIONAL SEPARATION 653 20.21 CONCLUSION 657 PROBLEMS 657 XVI CONTENTS 21. LOW REYNOLDS NUMBER FLOWS 660 21.1 GENERAL RELATIONS FOR RE»0: STOKES EQUATIONS 661 21.2 GLOBAL EQUATIONS FOR STOKES FLOW 664 21.3 FLOW IN TUBES AND CHANNELS WITH VARYING CROSS SECTIONS 666 21.4 REYNOLDS EQUATIONS FOR LUBRICATION THEORY 669 21.5 SLIPPER-PAD BEARING 672 21.6 SQUEEZE FILM LUBRICATION; VISCOUS ADHESION 675 21.7 PLANE CORNER FLOWS: MPFFATT VORTICES 676 21.8 AXISYMMETRIC FLOW: CONES, ORIFICES, AND TUBES 682 21.9 FLOW OVER A SPHERE 686 21.10 NONUNIFORMITY OF STOKES FLOW ON INFINITE DOMAINS 690 21.11 ASYMPTOTIC ANALYSIS OF FLOW OVER A SPHERE 691 21.12 STOKES FLOW NEAR A CIRCULAR CYLINDER 693 21.13 OSEEN S EQUATIONS 695 21.14 BUBBLE OR DROPLET IN AN INFINITE FLUID 696 21.15 STOKES FLOW OVER PARTICLES OF ARBITRARY SHAPE 700 21.16 INTERFERENCE EFFECTS 702 21.17 CONCLUSION 703 PROBLEMS 704 22. INTRODUCTION TO STABILITY AND TRANSITION 706 22.1 LINEAR STABILITY AND NORMAL MODES AS PERTURBATIONS 707 22.2 KELVIN-HELMHOLTZ INVISCID SHEAR-LAYER INSTABILITY 709 22.3 STABILITY PROBLEM FOR NEARLY PARALLEL VISCOUS FLOWS 714 22.4 ORR-SOMMERFELD EQUATION 717 22.5 INVISCID STABILITY OF NEARLY PARALLEL FLOWS 718 22.6 VISCOUS STABILITY OF NEARLY PARALLEL FLOWS 720 22.7 EXPERIMENTS ON BLASIUS BOUNDARY LAYERS 723 22.8 TRANSITION; SECONDARY INSTABILITY; BYPASS 727 22.9 SPATIALLY DEVELOPING OPEN FLOWS 730 22.10 TRANSITION IN FREE SHEAR FLOWS 732 22.11 POISEUILLE AND PLANE COUETTE FLOWS 732 22.12 INVISCID INSTABILITY OF FLOWS WITH CURVED STREAMLINES 734 22.13 TAYLOR INSTABILITY OF COUETTE FLOW 737 22.14 STABILITY OF REGIONS OF CONCENTRATED VORTICITY 739 22.15 SOME OTHER INSTABILITIES: TAYLOR; CURVED PIPE; CAPILLARY JETS; GORTLER 741 22.16 CONCLUSION 744 23. INTRODUCTION TO TURBULENT FLOWS 745 23.1 TYPES OF TURBULENT FLOWS 745 23.2 CHARACTERISTICS OF TURBULENT FLOWS 746 CONTENTS XVII 23.3 REYNOLDS DECOMPOSITION 749 23.4 REYNOLDS STRESS 751 23.5 FREE TURBULENCE: PLANE SHEAR LAYERS 754 23.6 FREE TURBULENCE: THE TURBULENT JET 759 23.7 BIFURCATING AND BLOOMING JETS 762 23.8 CORRELATIONS OF FLUCTUATIONS 763 *23.9 MEAN AND TURBULENT KINETIC ENERGY 765 23.10 ENERGY CASCADE: KOLMOGOROV SCALES; TAYLOR MICROSCALE 768 23.11 WALL TURBULENCE; CHANNEL FLOW 773 23.12 WALL LAYERS; EXPERIMENTS AND EMPIRICAL CORRELATION 783 23.13 TURBULENT STRUCTURES 788 23.14 CONCLUSION 792 APPENDIX A PROPERTIES OF FLUIDS 793 APPENDIX B DIFFERENTIAL OPERATIONS IN CYLINDRICAL AND SPHERICAL COORDINATES 794 APPENDIX C BASIC EQUATIONS IN RECTANGULAR, CYLINDRICAL, AND SPHERICAL COORDINATES 799 APPENDIX D STREAMFUNCTION RELATIONS IN RECTANGULAR, CYLINDRICAL, AND SPHERICAL COORDINATES 805 APPENDIX E COMPUTER CODE FOR RUNGE-KUTTA INTEGRATION 809 APPENDIX F COMPUTER CODE FOR ENTRANCE FLOW INTO A CASCADE 812 APPENDIX G COMPUTER CODE FOR BOUNDARY-LAYER ANALYSIS 815 SUPPLEMENTAL READING LIST 818 REFERENCES 819 INDEX 831
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series2	A Wiley-Interscience publication
spelling	Panton, Ronald L. 1933- Verfasser (DE-588)172300827 aut Incompressible flow Ronald L. Panton 2. ed. New York [u.a.] Wiley 1996 XVII, 837 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier A Wiley-Interscience publication Inkompressible Strömung (DE-588)4129759-3 gnd rswk-swf Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf Strömungsmechanik (DE-588)4077970-1 s DE-604 Inkompressible Strömung (DE-588)4129759-3 s 1\p DE-604 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007311402&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Panton, Ronald L. 1933- Incompressible flow Inkompressible Strömung (DE-588)4129759-3 gnd Strömungsmechanik (DE-588)4077970-1 gnd
subject_GND	(DE-588)4129759-3 (DE-588)4077970-1
title	Incompressible flow
title_auth	Incompressible flow
title_exact_search	Incompressible flow
title_full	Incompressible flow Ronald L. Panton
title_fullStr	Incompressible flow Ronald L. Panton
title_full_unstemmed	Incompressible flow Ronald L. Panton
title_short	Incompressible flow
title_sort	incompressible flow
topic	Inkompressible Strömung (DE-588)4129759-3 gnd Strömungsmechanik (DE-588)4077970-1 gnd
topic_facet	Inkompressible Strömung Strömungsmechanik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007311402&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT pantonronaldl incompressibleflow

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