Verfügbarkeit: Fluid mechanics for engineers

Fluid mechanics for engineers: a graduate textbook

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Bibliographische Detailangaben
1. Verfasser:	Schobeiri, Meinhard T. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2010
Schlagworte:	Strömungsmechanik Lehrbuch
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 504 S. graph. Darst. 235 mm x 155 mm
ISBN:	9783642115936

Internformat

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Datensatz im Suchindex

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adam_text	CONTENTS INTRODUCTION 1 1.1 CONTINUUM HYPOTHESIS 1 1.2 MOLECULAR VISCOSITY 2 1.3 FLOW CLASSIFICATION 4 1.3.1 VELOCITY PATTERN: LAMINAR, INTERMITTENT, TURBULENT FLOW 4 1.3.2 CHANGE OF DENSITY, INCOMPRESSIBLE, COMPRESSIBLE FLOW 8 1.3.3 STATISTICALLY STEADY FLOW, UNSTEADY FLOW 9 1.4 SHEAR-DEFORMATION BEHAVIOR OF FLUIDS 9 REFERENCES 10 VECTOR AND TENSOR ANALYSIS, APPLICATIONS TO FLUID MECHANICS 11 2.1 TENSORS IN THREE-DIMENSIONAL EUCLIDEAN SPACE 11 2.1.1 INDEX NOTATION 12 2.2 VECTOR OPERATIONS: SCALAR, VECTOR AND TENSOR PRODUCTS 13 2.2.1 SCALAR PRODUCT 13 2.2.2 VECTOR OR CROSS PRODUCT 13 2.2.3 TENSOR PRODUCT 14 2.3 CONTRACTION OF TENSORS 15 2.4 DIFFERENTIAL OPERATORS IN FLUID MECHANICS 15 2.4.1 SUBSTANTIAL DERIVATIVES 16 2.4.2 DIFFERENTIAL OPERATOR V 16 2.5 OPERATOR V APPLIED TO DIFFERENT FUNCTIONS 19 2.5.1 SCALAR PRODUCT OF FAND V 19 2.5.2 VECTOR PRODUCT VXF 20 2.5.3 TENSOR PRODUCT OF V AND F 21 2.5.4 SCALAR PRODUCT OF V AND A SECOND ORDER TENSOR 21 2.5.5 EIGENVALUE AND EIGENVECTOR OF A SECOND ORDER TENSOR 25 PROBLEMS 27 REFERENCES 29 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/999137573 DIGITALISIERT DURCH X CONTENTS 3 KINEMATICS OF FLUID MOTION 31 3.1 MATERIAL AND SPATIAL DESCRIPTION OF THE FLOW FIELD 31 3.1.1 MATERIAL DESCRIPTION 31 3.1.2 JACOBIAN TRANSFORMATION FUNCTION AND ITS MATERIAL DERIVATIVE 32 3.1.3 VELOCITY, ACCELERATION OF MATERIAL POINTS 36 3.1.4 SPATIAL DESCRIPTION 37 3.2 TRANSLATION, DEFORMATION, ROTATION 38 3.3 REYNOLDS TRANSPORT THEOREM 42 3.4 PATHLINE, STREAMLINE, STREAKLINE 44 PROBLEMS 46 REFERENCES 49 4 DIFFERENTIAL BALANCES IN FLUID MECHANICS 51 4.1 MASS FLOW BALANCE IN STATIONARY FRAME OF REFERENCE 51 4.1.1 INCOMPRESSIBILITY CONDITION 53 4.2 DIFFERENTIAL MOMENTUM BALANCE IN STATIONARY FRAME OF REFERENCE . 53 4.2.1 RELATIONSHIP BETWEEN STRESS TENSOR AND DEFORMATION TENSOR 56 4.2.2 NAVIER-STOKES EQUATION OF MOTION 58 4.2.3 SPECIAL CASE: EULER EQUATION OF MOTION 60 4.3 SOME DISCUSSIONS ON NAVIER-STOKES EQUATIONS 63 4.4 ENERGY BALANCE IN STATIONARY FRAME OF REFERENCE 64 4.4.1 MECHANICAL ENERGY 64 4.4.2 THERMAL ENERGY BALANCE 67 4.4.3 TOTAL ENERGY 70 4.4.4 ENTROPY BALANCE 71 4.5 DIFFERENTIAL BALANCES IN ROTATING FRAME OF REFERENCE 72 4.5.1 VELOCITY AND ACCELERATION IN ROTATING FRAME 72 4.5.2 CONTINUITY EQUATION IN ROTATING FRAME OF REFERENCE 73 4.5.3 EQUATION OF MOTION IN ROTATING FRAME OF REFERENCE 74 4.5.4 ENERGY EQUATION IN ROTATING FRAME OF REFERENCE 76 PROBLEMS 78 REFERENCES 80 5 CONTENTS XI 5.4.1 ENERGY BALANCE SPECIAL CASE I: STEADY FLOW 99 5.4.2 ENERGY BALANCE SPECIAL CASE 2: STEADY FLOW, CONSTANT MASS FLOW 99 5.5 APPLICATION OF ENERGY BALANCE TO ENGINEERING COMPONENTS 100 5.5.1 APPLICATION: PIPE, DIFFUSER, NOZZLE 100 5.5.2 APPLICATION: COMBUSTION CHAMBER 101 5.5.3 APPLICATION: TURBO-SHAFTS, ENERGY EXTRACTION, CONSUMPTION 102 5.5.3.1 UNCOOLED TURBINE 103 5.5.3.2 COOLED TURBINE 104 5.5.3.3 UNCOOLED COMPRESSOR 105 5.6 IRREVERSIBILITY, ENTROPY INCREASE, TOTAL PRESSURE LOSS 106 5.6.1 APPLICATION OF SECOND LAW TO ENGINEERING COMPONENTS 107 5.7 THEORY OF THERMAL TURBOMACHINERY STAGES 110 5.7.1 ENERGY TRANSFER IN TURBOMACHINERY STAGES 110 5.7.2 ENERGY TRANSFER IN RELATIVE SYSTEMS ILL 5.7.3 UNIFIED TREATMENT OF TURBINE AND COMPRESSOR STAGES 112 5.8 DIMENSIONLESS STAGE PARAMETERS 115 5.8.1 SIMPLE RADIAL EQUILIBRIUM TO DETERMINE R 117 5.8.2 EFFECT OF DEGREE OF REACTION ON THE STAGE CONFIGURATION ... 121 5.8.3 EFFECT OF STAGE LOAD COEFFICIENT ON STAGE POWER 121 5.9 UNIFIED DESCRIPTION OF A TURBOMACHINERY STAGE 122 5.9.1 UNIFIED DESCRIPTION OF STAGE WITH CONSTANT MEAN DIAMETER . 123 5.10 TURBINE AND COMPRESSOR CASCADE FLOW FORCES 124 5.10.1 BLADE FORCE IN AN INVISCID FLOW FIELD 124 5.10.2 BLADE FORCES IN A VISCOUS FLOW FIELD 128 5.10.3 EFFECT OF SOLIDITY ON BLADE PROFILE LOSSES 134 PROBLEMS, PROJECT 135 REFERENCES 138 6 INVISCID FLOWS 139 6. XII CONTENTS 6.3.1 SUPERPOSITION OF A UNIFORM FLOW AND A SOURCE 150 6.3.2 SUPERPOSITION OF A TRANSLATIONAL FLOW AND A DIPOLE 151 6.3.3 SUPERPOSITION OF A TRANSLATIONAL FLOW, A DIPOLE ANDA VORTEX 154 6.3.4 SUPERPOSITION OF A UNIFORM FLOW, SOURCE, AND SINK 159 6.3.5 SUPERPOSITION OF A SOURCE AND A VORTEX 160 6.4 BLASIUS THEOREM 161 6.5 KUTTA-JOUKOWSKI THEOREM 163 6.6 CONFORMAI TRANSFORMATION 167 6.6.1 CONFORMAI TRANSFORMATION, BASIC PRINCIPLES 167 6.6.2 KUTTA-JOUKOWSKY TRANSFORMATION 169 6.6.3 JOUKOWSKY TRANSFORMATION 170 6.6.3.1 CIRCLE-FLAT PLATE TRANSFORMATION 171 6.6.3.2 CIRCLE-ELLIPSE TRANSFORMATION 172 6.6.3.3 CIRCLE-SYMMETRIC AIRFOIL TRANSFORMATION 172 6.6.3.4 CIRCLE-CAMBERED AIRFOIL TRANSFORMATION 173 6.6.3.5 CIRCULATION, LIFT, KUTTA CONDITION 175 6.7 VORTEX THEOREMS 179 6.7.1 THOMSON THEOREM 179 6.7.2 GENERATION OF CIRCULATION 184 6.7.3 HELMHOLTZ THEOREMS 185 6.7.4 VORTEX INDUCED VELOCITY FIELD, LAW OF BIO -SAVAIT 190 6.7.5 INDUCED DRAG FORCE 195 PROBLEMS 197 REFERENCES 198 7 VISCOUS LAMINAR FLOW 201 7.1 STEADY VISCOUS FLOW THROUGH A CURVED CHANNEL 201 7.1.1 CONSERVATION LAWS 202 7.1.2 SOLUTION OF THE NAVIER-STOKES EQUATION 205 7.1.3 CURVED CHANNEL, NEGATIVE PRESSURE GRADIENT 207 7.1.4 CURVED CHANNEL, POSITIVE PRESSURE GRADIENT 208 7.1.5 RADIAL FLOW, POSITIVE PRESSURE GRADIENT 209 7.2 TEMPERATURE DISTRIBUTION 210 7.2. CONTENTS XIII 7.3.2 COUETTE FLOW BETWEEN TWO CONCENTRIC CYLINDERS 218 7.3.3 HAGEN-POISEUILLE FLOW 220 7.4 UNSTEADY LAMINAR FLOWS 222 7.4.1 FLOW NEAR OSCILLATING FLAT PLATE, STOKES-RAYLEIGH PROBLEM . 223 7.4.2 INFLUENCE OF VISCOSITY ON VORTEX DECAY 226 PROBLEMS 228 REFERENCES 232 8 LAMINAR-TURBULENT TRANSITION 233 8.1 STABILITY OF LAMINAR FLOW 233 8.2 LAMINAR-TURBULENT TRANSITION 234 8.3 STABILITY OF LAMINAR FLOWS 237 8.3.1 STABILITY OF SMALL DISTURBANCES 237 8.3.2 THE ORR-SOMMERFELD STABILITY EQUATION 239 8.3.3 ORR-SOMMERFELD EIGENVALUE PROBLEM 241 8.3.4 SOLUTION OF ORR-SOMMERFELD EQUATION 243 8.3.5 NUMERICAL RESULTS 246 8.4 PHYSICS OF AN INTERMITTENT FLOW, TRANSITION 247 8.4.1 IDENTIFICATION OF INTERMITTENT BEHAVIOR OF STATISTICALLY STEADY FLOWS 249 8.4.2 TURBULENT/NON-TURBULENT DECISIONS 250 8.4.3 INTERMITTENCY MODELING FOR STEADY FLOW AT ZERO PRESSURE GRADIENT 253 8.4.4 IDENTIFICATION OF INTERMITTENT BEHAVIOR OF PERIODIC UNSTEADY FLOWS 255 8.4.5 INTERMITTENCY MODELING FOR PERIODIC UNSTEADY FLOW 258 8.5 IMPLEMENTATION OF INTERMITTENCY INTO NAVIER STOKES EQUATIONS .... 261 8.5.1 REYNOLDS-AVERAGED EQUATIONS FOR FULLY TURBULENT FLOW ... 261 8.5.2 INTERMITTENCY IMPLEMENTATION IN RANS 265 PROBLEMS 267 REFERENCES 268 9 TURBULENT FLOW, MODELING 271 9.1 FUNDAMENTALS OF TURBULENT FLOWS 271 9.1.1 TYPE OF TURBULENCE 273 9.1. XIV CONTENTS 9.2.1 AVERAGING CONSERVATION EQUATIONS 287 9.2.1.1 AVERAGING THE CONTINUITY EQUATION 287 9.2.1.2 AVERAGING THE NAVIER-STOKES EQUATION 287 9.2.1.3 AVERAGING THE MECHANICAL ENERGY EQUATION 288 9.2.1.4 AVERAGING THE THERMAL ENERGY EQUATION 289 9.2.1.5 AVERAGING THE TOTAL ENTHALPY EQUATION 291 9.2.1.6 QUANTITIES RESULTING FROM AVERAGING TO BE MODELED . 294 9.2.2 EQUATION OF TURBULENCE KINETIC ENERGY 296 9.2.3 EQUATION OF DISSIPATION OF KINETIC ENERGY 302 9.3 TURBULENCE MODELING 303 9.3.1 ALGEBRAIC MODEL: PRANDTL MIXING LENGTH HYPOTHESIS 304 9.3.2 ALGEBRAIC MODEL: CEBECI-SMITH MODEL 310 9.3.3 BALDWIN-LOMAX ALGEBRAIC MODEL 311 9.3.4 ONE- EQUATION MODEL BY PRANDTL 312 9.3.5 TWO-EQUATION MODELS 313 9.3.5.1 TWO-EQUATION K-S MODEL 313 9.3.5.2 TWO-EQUATION K-CO-MODEL 315 9.3.5.3 TWO-EQUATION K-CO-SST-MODEL 316 9.3.5.4 TWO EXAMPLES OF TWO-EQUATION MODELS 318 9.4 GRID TURBULENCE 321 PROBLEMS AND PROJECTS 323 REFERENCES 325 10 FREE TURBULENT FLOW 327 10.1 TYPES OF FREE TURBULENT FLOWS 327 10.2 FUNDAMENTALS EQUATIONS OF FREE TURBULENT FLOWS 328 10.3 FREE TURBULENT FLOWS AT ZERO-PRESSURE GRADIENT 329 10.3.1 PLANE FREE JET FLOWS 333 10.3.2 STRAIGHT WAKE AT ZERO PRESSURE GRADIENT 333 10.3.3 FREE JET BOUNDARY 338 10.4 WAKE FLOW AT NON-ZERO LATERAL PRESSURE GRADIENT 340 10.4.1 WAKE FLOW IN ENGINEERING, APPLICATIONS, GENERAL REMARKS . 340 10.4. CONTENTS XV 11 BOUNDARY LAYER THEORY 357 11.1 BOUNDARY LAYER APPROXIMATIONS 358 11.2 EXACT SOLUTIONS OF LAMINAR BOUNDARY LAYER EQUATIONS 361 11.2.1 LAMINAR BOUNDARY LAYER, FLAT PLATE 362 11.2.2 WEDGE FLOWS 364 11.2.3 POLHAUSEN APPROXIMATE SOLUTION 368 11.3 BOUNDARY LAYER THEORY INTEGRAL METHOD 369 11.3.1 BOUNDARY LAYER THICKNESSES 369 11.3.2 BOUNDARY LAYER INTEGRAL EQUATION 372 11.4 TURBULENT BOUNDARY LAYERS 375 11.4.1 UNIVERSAL WALL FUNCTIONS 378 11.4.2 VELOCITY DEFECT FUNCTION 381 11.5 BOUNDARY LAYER, DIFFERENTIAL TREATMENT 386 11.5.1 SOLUTION OF BOUNDARY LAYER EQUATIONS 390 11.6 MEASUREMENT OF BOUNDARY FLOW, BASIC TECHNIQUES 391 11.6.1 EXPERIMENTAL TECHNIQUES 391 11.6.1.1 HWA OPERATION MODES, CALIBRATION 391 11.6.1.2 HWA AVERAGING, SAMPLING DATA 393 11.7 EXAMPLES: CALCULATIONS, EXPERIMENTS 394 11.7.1 STEADY STATE VELOCITY CALCULATIONS 394 11.7.1.1 EXPERIMENTAL VERIFICATION 396 11.7.1.2 HEAT TRANSFER CALCULATION, EXPERIMENT 397 11.7.2 PERIODIC UNSTEADY INLET FLOW CONDITION 398 11.7.2.1 EXPERIMENTAL VERIFICATION 401 11.7.2.2 HEAT TRANSFER CALCULATION, EXPERIMENT 403 11.7.3 APPLICATION OF K-CO MODEL TO BOUNDARY LAYER 404 11.8 PARAMETERS AFFECTING BOUNDARY LAYER 404 11.8.1 PARAMETER VARIATIONS, GENERAL REMARKS 405 11.8.2 EFFECT OF PERIODIC UNSTEADY FLOW 409 PROBLEMS AND PROJECTS 417 REFERENCES 418 12 COMPRESSIBLE FLOW 423 12. XVI CONTENTS 12.1.4 SUPERSONIC FLOW 450 12.1.4.1 THE OBLIQUE SHOCK WAVE RELATIONS 451 12.1.4.2 DETACHED SHOCK WAVE 454 12.1.4.3 PRANDTL-MEYER EXPANSION 456 12.2 UNSTEADY COMPRESSIBLE FLOW 458 12.2.1 ONE-DIMENSIONAL APPROXIMATION 459 12.3 NUMERICAL TREATMENT 466 12.3.1 UNSTEADY COMPRESSIBLE FLOW: EXAMPLE: SHOCK TUBE 467 12.3.2 SHOCK TUBE DYNAMIC BEHAVIOR 468 12.3.2.1 PRESSURE TRANSIENTS 468 12.3.2.2 TEMPERATURE TRANSIENTS 469 12.3.2.3 MASS FLOW TRANSIENTS 470 PROBLEMS AND PROJECTS 471 REFERENCES 473 A TENSOR OPERATIONS IN ORTHOGONAL CURVILINEAR COORDINATE SYSTEMS 475 A.I CHANGE OF COORDINATE SYSTEM 475 A.2 CO- AND CONTRAVARIANT BASE VECTORS, METRIC COEFFICIENTS 475 A.3 PHYSICAL COMPONENTS OF A VECTOR 478 A.4 DERIVATIVES OF THE BASE VECTORS, CHRISTO FFEL SYMBOLS 479 A.5 SPATIAL DERIVATIVES IN CURVILINEAR COORDINATE SYSTEM 480 A.5.1 APPLICATION OF V TO TENSOR FUNCTIONS 480 A.6 APPLICATION EXAMPLE 1 : INVISCID INCOMPRESSIBLE FLOW MOTION .... 482 A.6.1 EQUATION OF MOTION IN CURVILINEAR COORDINATE SYSTEMS 482 A.6.2 SPECIAL CASE: CYLINDRICAL COORDINATE SYSTEM 483 A.6.3 BASE VECTORS, METRIC COEFFICIENTS 483 A.6.4 CHRISTOFFEL SYMBOLS 484 A.6.5 INTRODUCTION OF PHYSICAL COMPONENTS 485 A.7 APPLICATION EXAMPLE 1: VISCOUS FLOW MOTION 486 A.7.1 EQUATION OF MOTION IN CURVILINEAR COORDINATE SYSTEMS 486 A.7.2 SPECIAL CASE: CYLINDRICAL COORDINATE SYSTEM 487 REFERENCE
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spelling	Schobeiri, Meinhard T. Verfasser (DE-588)1031820701 aut Fluid mechanics for engineers a graduate textbook Meinhard T. Schobeiri Berlin [u.a.] Springer 2010 XXI, 504 S. graph. Darst. 235 mm x 155 mm txt rdacontent n rdamedia nc rdacarrier Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Strömungsmechanik (DE-588)4077970-1 s DE-604 Erscheint auch als Online-Ausgabe 978-3-642-11594-3 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020339960&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Schobeiri, Meinhard T. Fluid mechanics for engineers a graduate textbook Strömungsmechanik (DE-588)4077970-1 gnd
subject_GND	(DE-588)4077970-1 (DE-588)4123623-3
title	Fluid mechanics for engineers a graduate textbook
title_auth	Fluid mechanics for engineers a graduate textbook
title_exact_search	Fluid mechanics for engineers a graduate textbook
title_full	Fluid mechanics for engineers a graduate textbook Meinhard T. Schobeiri
title_fullStr	Fluid mechanics for engineers a graduate textbook Meinhard T. Schobeiri
title_full_unstemmed	Fluid mechanics for engineers a graduate textbook Meinhard T. Schobeiri
title_short	Fluid mechanics for engineers
title_sort	fluid mechanics for engineers a graduate textbook
title_sub	a graduate textbook
topic	Strömungsmechanik (DE-588)4077970-1 gnd
topic_facet	Strömungsmechanik Lehrbuch
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020339960&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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