Verfügbarkeit: Boundary-layer theory

Boundary-layer theory:

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Hauptverfasser:	Schlichting, Hermann 1907-1982 (VerfasserIn), Gersten, Klaus 1929- (VerfasserIn)
Weitere Verfasser:	Krause, Egon (MitwirkendeR), Oertel, Herbert jr. 1944- (MitwirkendeR), Mayes, Katherine 1973- (ÜbersetzerIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Heidelberg Springer [2017]
Ausgabe:	Ninth edition
Schlagworte:	Grenzschichttheorie Grenzschicht Strömungsmechanik Aerodynamics Ekman layer Laminar Boundary Layer Flow Reynolds decomposition Turbulent Boundary Layer Flow boundary layer equations bounding surface Lehrbuch
Online-Zugang:	http://www.springer.com/ Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXVIII, 805 Seiten Illustrationen, Diagramme 23.5 cm x 15.5 cm, 1280 g
ISBN:	9783662529171

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MARC


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653			\|a Aerodynamics
653			\|a Ekman layer
653			\|a Laminar Boundary Layer Flow
653			\|a Reynolds decomposition
653			\|a Turbulent Boundary Layer Flow
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Datensatz im Suchindex

_version_	1817967945683304448
adam_text	Titel: Boundary-layer theory Autor: Schlichting, Hermann Jahr: 2017 Contents Introduction.XXI Part I. Fundamentals of Viscous Flows 1. Some Features of Viscous Flows. 3 1.1 Real and Ideal Fluids. 3 1.2 Viscosity. 4 1.3 Reynolds Number. 6 1.4 Laminar and Turbulent Flows. 12 1.5 Asymptotic Behaviour at Large Reynolds Numbers. 14 1.6 Comparison of Measurements Using the Inviscid Limiting Solution. 14 1.7 Summary. 26 2. Fundamentals of Boundary-Layer Theory. 29 2.1 Boundary-Layer Concept. 29 2.2 Laminar Boundary Layer on a Flat Plate at Zero Incidence . 30 2.3 Turbulent Boundary Layer on a Flat Plate at Zero Incidence . 33 2.4 Fully Developed Turbulent Flow in a Pipe. 36 2.5 Boundary Layer on an Airfoil. 38 2.6 Separation of the Boundary Layer. 39 2.7 Overview of the Following Material. 48 3. Field Equations for Flows of Newtonian Fluids . 51 3.1 Description of Flow Fields. 51 3.2 Continuity Equation. 52 3.3 Momentum Equation. 52 3.4 General Stress State of Deformable Bodies. 53 3.5 General State of Deformation of Flowing Fluids. 57 3.6 Relation Between Stresses and Rate of Deformation. 62 3.7 Stokes Hypothesis. 65 3.8 Bulk Viscosity and Thermodynamic Pressure. 66 3.9 Navier-Stokes Equations. 68 XII Contents 3.10 Energy Equation. 69 3.11 Equations of Motion for Arbitrary Coordinate Systems (Summary). 73 3.12 Equations of Motion for Cartesian Coordinates in Index Notation. 76 3.13 Equations of Motion in Different Coordinate Systems. 79 4. General Properties of the Equations of Motion. 83 4.1 Similarity Laws. 83 4.2 Similarity Laws for Flow with Buoyancy Forces (Mixed Forced and Natural Convection). 86 4.3 Similarity Laws for Natural Convection . 90 4.4 Vorticity Transport Equation. 91 4.5 Limit of Very Small Reynolds Numbers . 93 4.6 Limit of Very Large Reynolds Numbers. 94 4.7 Mathematical Example of the Limit Re — oo. 96 4.8 Non-Uniqueness of Solutions of the Navier-Stokes Equations. 99 5. Exact Solutions of the Navier-Stokes Equations.101 5.1 Steady Plane Flows.101 5.1.1 Couette-Poiseuille Flows.101 5.1.2 Jeffery-Hamel Flows (Fully Developed Nozzle and Diffuser Flows).104 5.1.3 Plane Stagnation-Point Flow.110 5.1.4 Flow Past a Parabolic Body.115 5.1.5 Flow Past a Circular Cylinder .115 5.2 Steady Axisymmetric Flows .116 5.2.1 Circular Pipe Flow (Hagen-Poiseuille Flow) . 116 5.2.2 Flow Between Two Concentric Rotating Cylinders . 117 5.2.3 Axisymmetric Stagnation-Point Flow. 118 5.2.4 Flow at a Rotating Disk. 119 5.2.5 Axisymmetric Free Jet. 124 5.3 Unsteady Plane Flows . 126 5.3.1 Flow at a Wall Suddenly Set into Motion (First Stokes Problem).126 5.3.2 Flow at an Oscillating Wall (Second Stokes Problem).129 5.3.3 Start-up of Couette Flow .130 5.3.4 Unsteady Asymptotic Suction.131 5.3.5 Unsteady Plane Stagnation-Point Flow.131 5.3.6 Oscillating Channel Flow.137 5.4 Unsteady Axisymmetric Flows.139 5.4.1 Vortex Decay.139 5.4.2 Unsteady Pipe Flow.139 5.5 Summary.141 Contents XIII Part II. Laminar Boundary Layers 6. Boundary-Layer Equations in Plane Flow; Plate Boundary Layer.145 6.1 Setting up the Boundary-Layer Equations.145 6.2 Wall Friction, Separation and Displacement.150 6.3 Dimensional Representation of the Boundary-Layer Equations .152 6.4 Friction Drag.155 6.5 Plate Boundary Layer.156 7. General Properties and Exact Solutions of the Boundary-Layer Equations for Plane Flows.165 7.1 Compatibility Condition at the Wall.166 7.2 Similar Solutions of the Boundary-Layer Equations.167 7.2.1 Derivation of the Ordinary Differential Equation. 167 A Boundary Layers with Outer Flow. 169 B Boundary Layers Without Outer Flow. 172 7.2.2 Wedge Flows. 172 7.2.3 Flow in a Convergent Channel. 174 7.2.4 Mixing Layer. 175 7.2.5 Moving Plate. 177 7.2.6 Free Jet. 177 7.2.7 Wall Jet. 180 7.3 Coordinate Transformation. 182 7.3.1 Görtier Transformation .182 7.3.2 v. Mises Transformation.183 7.3.3 Crocco Transformation.184 7.4 Series Expansion of the Solutions.184 7.4.1 Blasius Series.184 7.4.2 Görtier Series.186 7.5 Asymptotic Behaviour of Solutions Downstream.187 7.5.1 Wake Behind Bodies.187 7.5.2 Boundary Layer at a Moving Wall.190 7.6 Integral Relations of the Boundary Layer.191 7.6.1 Momentum-Integral Equation .191 7.6.2 Energy-Integral Equation.192 7.6.3 Moment-of-Momentum Integral Equations.194 8. Approximate Methods for Solving the Boundary-Layer Equations for Steady Plane Flows .195 8.1 Integral Methods.196 XIV Contents 8.2 Stratford's Separation Criterion.202 8.3 Comparison of the Approximate Solutions with Exact Solutions.202 8.3.1 Retarded Stagnation-Point Flow.202 8.3.2 Divergent Channel (Diffuser) .204 8.3.3 Circular Cylinder Flow.205 8.3.4 Symmetric Flow past a Joukowsky Airfoil.207 9. Thermal Boundary Layers without Coupling of the Velocity Field to the Temperature Field.209 9.1 Boundary-Layer Equations for the Temperature Field.209 9.2 Forced Convection for Constant Properties.211 9.3 Effect of the Prandtl Number.215 9.4 Similar Solutions of the Thermal Boundary Layer .218 9.5 Integral Methods for Computing the Heat Transfer.223 9.6 Effect of Dissipation; Distribution of the Adiabatic Wall Temperature.226 10, Thermal Boundary Layers with Coupling of the Velocity Field to the Temperature Field.231 10.1 Remark.231 10.2 Boundary-Layer Equations.231 10.3 Boundary Layers with Moderate Wall Heat Transfer (Without Gravitational Effects).233 10.3.1 Perturbation Calculation.233 10.3.2 Property Ratio Method (Temperature Ratio Method) . 237 10.3.3 Reference Temperature Method.240 10.4 Compressible Boundary Layers (Without Gravitational Effects).241 10.4.1 Physical Property Relations.241 10.4.2 Simple Solutions of the Energy Equation.244 10.4.3 Transformations of the Boundary-Layer Equations . . 246 10.4.4 Similar Solutions.249 10.4.5 Integral Methods.258 10.4.6 Boundary Layers in Hypersonic Flows.263 10.5 Natural Convection.265 10.5.1 Boundary-Layer Equations.265 10.5.2 Transformation of the Boundary-Layer Equations . 270 10.5.3 Limit of Large Prandtl Numbers (Tw = const) .271 10.5.4 Similar Solutions.273 10.5.5 General Solutions.277 10.5.6 Variable Physical Properties.278 10.5.7 Effect of Dissipation.280 Contents XV 10.6 Indirect Natural Convection.281 10.7 Mixed Convection.284 11. Boundary-Layer Control (Suction/Blowing).291 11.1 Different Kinds of Boundary-Layer Control.291 11.2 Continuous Suction and Blowing.295 11.2.1 Fundamentals.295 11.2.2 Massive Suction.297 11.2.3 Massive Blowing.299 11.2.4 Similar Solutions.302 11.2.5 General Solutions .307 1. Plate Flow with Uniform Suction or Blowing.307 2. Airfoil.309 11.2.6 Natural Convection with Blowing and Suction .310 11.3 Binary Boundary Layers .311 11.3.1 Overview.311 11.3.2 Basic Equations.312 11.3.3 Analogy Between Heat and Mass Transfer.316 11.3.4 Similar Solutions.317 12. Axisymmetric and Three-Dimensional Boundary Layers . 321 12.1 Axisymmetric Boundary Layers.321 12.1.1 Boundary-Layer Equations.321 12.1.2 Mangier Transformation.323 12.1.3 Boundary Layers on Non-Rotating Bodies of Revolution.324 12.1.4 Boundary Layers on Rotating Bodies of Revolution . 327 12.1.5 Free Jets and Wakes.331 12.2 Three-Dimensional Boundary Layers.335 12.2.1 Boundary-Layer Equations.335 12.2.2 Boundary Layer at a Cylinder .341 12.2.3 Boundary Layer at a Yawing Cylinder.342 12.2.4 Three-Dimensional Stagnation Point.344 12.2.5 Boundary Layers in Symmetry Planes.345 12.2.6 General Configurations.345 13. Unsteady Boundary Layers.349 13.1 Fundamentals.349 13.1.1 Remark.349 13.1.2 Boundary-Layer Equations.350 13.1.3 Similar and Semi-Similar Solutions.351 13.1.4 Solutions for Small Times (High Frequencies).352 13.1.5 Separation of Unsteady Boundary Layers.353 13.1.6 Integral Relations and Integral Methods.354 13.2 Unsteady Motion of Bodies in a Fluid at Rest.355 XVI Contents 13.2.1 Start-Up Processes.355 13.2.2 Oscillation of Bodies in a Fluid at Rest .362 13.3 Unsteady Boundary Layers in a Steady Basic Flow.365 13.3.1 Periodic Outer Flow.365 13.3.2 Steady Flow with a Weak Periodic Perturbation.367 13.3.3 Transition Between Two Slightly Different Steady Boundary Layers.369 13.4 Compressible Unsteady Boundary Layers.370 13.4.1 Remark.370 13.4.2 Boundary Layer Behind a Moving Normal Shock Wave.371 13.4.3 Flat Plate at Zero Incidence with Variable Free Stream Velocity and Wall Temperature.373 14. Extensions to the Prandtl Boundary—Layer Theory.377 14.1 Remark.377 14.2 Higher Order Boundary-Layer Theory.379 14.3 Hypersonic Interaction.389 14.4 Triple-Deck Theory.392 14.5 Marginal Separation.403 14.6 Massive Separation.408 Part III. Laminar-Turbulent Transition 15. Onset of Turbulence (Stability Theory).415 15.1 Some Experimental Results on the Laminar-Turbulent Transition.415 15.1.1 Transition in the Pipe Flow.415 15.1.2 Transition in the Boundary Layer.419 15.2 Fundamentals of Stability Theory.424 15.2.1 Remark.424 15.2.2 Fundamentals of Primary Stability Theory .425 15.2.3 Orr-Sommerfeld Equation.427 15.2.4 Curve of Neutral Stability and the Indifference Reynolds Number.434 a Plate Boundary Layer.436 b Effect of Pressure Gradient.445 c Effect of Suction.457 d Effect of Wall Heat Transfer.460 e Effect of Compressibility.463 f Effect of Wall Roughness.467 g Further Effects.472 15.3 Instability of the Boundary Layer for Three-Dimensional Perturbations.473 Contents XVII 15.3.1 Remark.473 15.3.2 Fundamentals of Secondary Stability Theory.476 15.3.3 Boundary Layers at Curved Walls.481 15.3.4 Boundary Layer at a Rotating Disk.485 15.3.5 Three-Dimensional Boundary Layers .487 15.4 Local Perturbations.493 Part IV. Turbulent Boundary Layers 16. Fundamentals of Turbulent Flows.499 16.1 Remark.499 16.2 Mean Motion and Fluctuations.501 16.3 Basic Equations for the Mean Motion of Turbulent Flows. 504 16.3.1 Continuity Equation.504 16.3.2 Momentum Equations (Reynolds Equations).505 16.3.3 Equation for the Kinetic Energy of the Turbulent Fluctuations (fc-Equation).507 16.3.4 Thermal Energy Equation.510 16.4 Closure Problem.511 16.5 Description of the Turbulent Fluctuations.512 16.5.1 Correlations.512 16.5.2 Spectra and Eddies.513 16.5.3 Turbulence of the Outer Flow.515 16.5.4 Edges of Turbulent Regions and Intermittence.515 16.6 Boundary-Layer Equations for Plane Flows.516 17. Internal Flows.519 17.1 Couette Flow.519 17.1.1 Two-Layer Structure of the Velocity Field and the Logarithmic Overlap Law.519 17.1.2 Universal Laws of the Wall.524 17.1.3 Friction Law.536 17.1.4 Turbulence Models.538 17.1.5 Heat Transfer.541 17.2 Fully Developed Internal Flows (A = const).543 17.2.1 Channel Flow.543 17.2.2 Couette-Poiseuille Flows.544 17.2.3 Pipe Flow.549 17.3 Slender-Channel Theory.554 18. Turbulent Boundary Layers without Coupling of the Velocity Field to the Temperature Field.557 18.1 Turbulence Models.557 XVni Contents 18.1.1 Remark. 557 18.1.2 Algebraic Turbulence Models. 559 18.1.3 Turbulent Energy Equation. 560 18.1.4 Two-Equation Models. 562 18.1.5 Reynolds Stress Models. 565 18.1.6 Heat Transfer Models. 568 18.1.7 Low-Reynolds-Number Models. 570 18.1.8 Large-Eddy Simulation and Direct Numerical Simulation.571 18.2 Attached Boundary Layers .572 18.2.1 Layered Structure.572 18.2.2 Boundary-Layer Equations Using the Defect Formulation.574 18.2.3 Friction Law and Characterisitic Quantities of the Boundary Layer.577 18.2.4 Equilibrium Boundary Layers.580 18.2.5 Boundary Layer on a Plate at Zero Incidence.582 18.3 Boundary Layers with Separation.589 18.3.1 Stratford Flow.589 18.3.2 Quasi-Equilibrium Boundary Layers.591 18.4 Computation of Boundary Layers Using Integral Methods . 594 18.4.1 Direct Method.594 18.4.2 Inverse Method.597 18.5 Computation of Boundary Layers Using Field Methods.598 18.5.1 Attached Boundary Layers .598 18.5.2 Boundary Layers with Separation .601 18.5.3 Low-Reynolds-Number Turbulence Models.603 18.5.4 Additional Effects.604 18.6 Computation of Thermal Boundary Layers .607 18.6.1 Fundamentals.607 18.6.2 Computation of Thermal Boundary Layers Using Field Methods.609 19. Turbulent Boundary Layers with Coupling of the Velocity Field to the Temperature Field.611 19.1 Fundamental Equations.611 19.1.1 Time Averaging for Variable Density.611 19.1.2 Boundary-Layer Equations.613 19.2 Compressible Turbulent Boundary Layers.617 19.2.1 Temperature Field.617 19.2.2 Overlap Law.619 19.2.3 Skin-Friction Coefficient and Nusselt Number.621 19.2.4 Integral Methods for Adiabatic Walls.623 I Contents XIX 19.2.5 Field Methods.625 19.2.6 Shock-Boundary-Layer Interaction.625 19.3 Natural Convection.627 20. Axisymmetric and Three-Dimensional Turbulent Boundary Layers.631 20.1 Axisymmetric Boundary Layers.631 20.1.1 Boundary-Layer Equations.631 20.1.2 Boundary Layers without Body Rotation.632 20.1.3 Boundary Layers with Body Rotation.635 20.2 Three-Dimensional Boundary Layers.637 20.2.1 Boundary-Layer Equations.637 20.2.2 Computation Methods.641 20.2.3 Examples .643 21. Unsteady Turbulent Boundary Layers.645 21.1 Averaging and Boundary-Layer Equations.645 21.2 Computation Methods.648 21.3 Examples.649 22. Turbulent Free Shear Flows .653 22.1 Remark.653 22.2 Equations for Plane Free Shear Layers.655 22.3 Plane Free Jet.659 22.3.1 Global Balances.659 22.3.2 Far Field.660 22.3.3 Near Field.665 22.3.4 Wall Effects.665 22.4 Mixing Layer.667 22.5 Plane Wake.669 22.6 Axisymmetric Free Shear Flows.671 22.6.1 Basic Equations.671 22.6.2 Free Jet.672 22.6.3 Wake.673 22.7 Buoyant Jets.675 22.7.1 Plane Buoyant Jet.675 22.7.2 Axisymmetric Buoyant Jet .676 22.8 Plane Wall Jet.677 XX Contents Part V. Numerical Methods in Boundary-Layer Theory 23. Numerical Integration of the Boundary-Layer Equations . 683 23.1 Laminar Boundary Layers.683 23.1.1 Remark.683 23.1.2 Note on Boundary-Layer Transformations.684 23.1.3 Explicit and Implicit Discretisation.685 23.1.4 Solution of the Implicit Difference Equations.689 23.1.5 Integration of the Continuity Equation.691 23.1.6 Boundary-Layer Edge and Wall Shear Stress .691 23.1.7 Integration of the Transformed Boundary-Layer Equations Using the Box Scheme.692 23.2 Turbulent Boundary Layers.695 23.2.1 Method of Wall Functions.695 23.2.2 Low-Reynolds-Number Turbulence Models.700 23.3 Unsteady Boundary Layers.701 23.4 Steady Three-Dimensional Boundary Layers.703 List of Frequently Used Symbols.709 References and Index of Authors.717 Index.799
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genre	1\p (DE-588)4123623-3 Lehrbuch gnd-content
genre_facet	Lehrbuch
id	DE-604.BV043850980
illustrated	Illustrated
indexdate	2024-12-09T13:02:16Z
institution	BVB
institution_GND	(DE-588)1065168780
isbn	9783662529171
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-029261293
oclc_num	965331720
open_access_boolean
owner	DE-29T DE-83 DE-634 DE-703 DE-91G DE-BY-TUM
owner_facet	DE-29T DE-83 DE-634 DE-703 DE-91G DE-BY-TUM
physical	XXVIII, 805 Seiten Illustrationen, Diagramme 23.5 cm x 15.5 cm, 1280 g
publishDate	2017
publishDateSearch	2017
publishDateSort	2017
publisher	Springer
record_format	marc
spelling	Schlichting, Hermann 1907-1982 Verfasser (DE-588)121428095 aut Boundary-layer theory Hermann Schlichting (deceased), Klaus Gersten ; with contributions from Egon Krause and Herbert Oertel Jr. ; translated by Katherine Mayes Ninth edition Berlin ; Heidelberg Springer [2017] © 2017 XXVIII, 805 Seiten Illustrationen, Diagramme 23.5 cm x 15.5 cm, 1280 g txt rdacontent n rdamedia nc rdacarrier Grenzschichttheorie (DE-588)4158151-9 gnd rswk-swf Grenzschicht (DE-588)4022005-9 gnd rswk-swf Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf Aerodynamics Ekman layer Laminar Boundary Layer Flow Reynolds decomposition Turbulent Boundary Layer Flow boundary layer equations bounding surface 1\p (DE-588)4123623-3 Lehrbuch gnd-content Grenzschichttheorie (DE-588)4158151-9 s Strömungsmechanik (DE-588)4077970-1 s DE-604 Grenzschicht (DE-588)4022005-9 s 2\p DE-604 Gersten, Klaus 1929- Verfasser (DE-588)121428281 aut Krause, Egon (DE-588)1055145397 ctb Oertel, Herbert jr. 1944- (DE-588)123316456 ctb Mayes, Katherine 1973- (DE-588)124531814 trl Springer-Verlag GmbH (DE-588)1065168780 pbl Erscheint auch als Online-Ausgabe 978-3-662-52919-5 http://www.springer.com/ Verlag X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=f8816d879f5640afa7aa33ac5e7846cc&prov=M&dok_var=1&dok_ext=htm Inhaltstext HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029261293&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 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Schlichting, Hermann 1907-1982 Gersten, Klaus 1929- Boundary-layer theory Grenzschichttheorie (DE-588)4158151-9 gnd Grenzschicht (DE-588)4022005-9 gnd Strömungsmechanik (DE-588)4077970-1 gnd
subject_GND	(DE-588)4158151-9 (DE-588)4022005-9 (DE-588)4077970-1 (DE-588)4123623-3
title	Boundary-layer theory
title_auth	Boundary-layer theory
title_exact_search	Boundary-layer theory
title_full	Boundary-layer theory Hermann Schlichting (deceased), Klaus Gersten ; with contributions from Egon Krause and Herbert Oertel Jr. ; translated by Katherine Mayes
title_fullStr	Boundary-layer theory Hermann Schlichting (deceased), Klaus Gersten ; with contributions from Egon Krause and Herbert Oertel Jr. ; translated by Katherine Mayes
title_full_unstemmed	Boundary-layer theory Hermann Schlichting (deceased), Klaus Gersten ; with contributions from Egon Krause and Herbert Oertel Jr. ; translated by Katherine Mayes
title_short	Boundary-layer theory
title_sort	boundary layer theory
topic	Grenzschichttheorie (DE-588)4158151-9 gnd Grenzschicht (DE-588)4022005-9 gnd Strömungsmechanik (DE-588)4077970-1 gnd
topic_facet	Grenzschichttheorie Grenzschicht Strömungsmechanik Lehrbuch
url	http://www.springer.com/ http://deposit.dnb.de/cgi-bin/dokserv?id=f8816d879f5640afa7aa33ac5e7846cc&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029261293&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT schlichtinghermann boundarylayertheory AT gerstenklaus boundarylayertheory AT krauseegon boundarylayertheory AT oertelherbert boundarylayertheory AT mayeskatherine boundarylayertheory AT springerverlaggmbh boundarylayertheory

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