简介
Summary:
Publisher Summary 1
Frank White's Viscous Fluid Flow, Third Editioncontinues to be the market leader in this course area. The text is for a senior graduate level elective in Mechanical Engineering, and has a strong professional and international appeal.Author Frank White is has a strong reputation in the field, his book is accurate, conceptually strong, and contains excellent problem sets. Many of the problems are new to this third edition; a rarity among senior and graduate level textbooks. The references found in the text have been updated and reflect the most current information available. Users will also be interested to find explanations of, and references to ongoing controversies and trends in this course area.Topically speaking, the text contains modern information on technological advances, such as Micro- and Nano-technology, Turbulence Modeling, Computational Fluid Dynamics (CFD), and Unsteady Boundary Layers.
目录
Table Of Contents:
Preface xiii
List of Symbols xvii
Preliminary Concepts 1(58)
Historical Outline 1(3)
Some Examples of Viscous-Flow Phenomena 4(11)
Properties of a Fluid 15(30)
Boundary Conditions for Viscous-Flow Problems 45(14)
Summary 54(1)
Problems 55(4)
Fundamental Equations of Compressible Viscous Flow 59(37)
Introduction 59(1)
Classification of The Fundamental Equations 59(1)
Conservation of Mass: The Equation of Continuity 60(2)
Conservation of Momentum: The Navier-Stokes Equations 62(7)
The Energy Equation (First Law of Thermodynamics) 69(5)
Boundary Conditions for Viscous Heat-Conducting Flow 74(1)
Orthogonal Coordinate Systems 75(2)
Mathematical Character of The Basic Equations 77(4)
Dimensionless Parameters in Viscous Flow 81(3)
Vorticity Considerations in Incompressible Viscous Flow 84(2)
Two-Dimensional Considerations: The Stream Function 86(2)
Noninertial Coordinate Systems 88(1)
Control-Volume Formulations 89(7)
Summary 92(1)
Problems 92(4)
Solutions of The Newtonian Viscous-Flow Equations 96(119)
Introduction and Classification of Solutions 96(2)
Couette Flows Due to Moving Surfaces 98(8)
Poiseuille Flow through Ducts 106(19)
Unsteady Duct Flows 125(4)
Unsteady Flows with Moving Boundaries 129(6)
Asymptotic Suction Flows 135(6)
Wind-Driven Flows: The Ekman Drift 141(3)
Similarity Solutions 144(21)
Low Reynolds Number: Linearized Creeping Motion 165(18)
Computational Fluid Dynamics 183(32)
Summary 205(1)
Problems 205(10)
Laminar Boundary Layers 215(122)
Introduction 215(10)
Laminar Boundary-Layer Equations 225(5)
Similarity Solutions for Steady Two-Dimensional Flow 230(21)
Free-Shear Flows 251(6)
Other Analytic Two-Dimensional Solutions 257(4)
Approximate Integral Methods 261(10)
Digital-Computer Solutions 271(7)
Thermal-Boundary-Layer Calculations 278(9)
Flow in the Inlet of Ducts 287(3)
Rotationally Symmetric Boundary Layers 290(10)
Asymptotic Expansions and Triple-Deck Theory 300(7)
Three-Dimensional Laminar Boundary Layers 307(11)
Unsteady Boundary Layers: Separation Anxiety 318(3)
Free-Convection Boundary Layers 321(16)
Summary 328(1)
Problems 328(9)
The Stability of Laminar Flows 337(61)
Introduction: The Concept of Small-Disturbance Stability 337(7)
Linearized Stability of Parallel Viscous Flows 344(13)
Parametric Effects in the Linear Stability Theory 357(13)
Transition to Turbulence 370(8)
Engineering Prediction of Transition 378(20)
Summary 394(1)
Problems 394(4)
Incompressible Turbulent Mean Flow 398(107)
Physical and Mathematical Description of Turbulence 398(8)
The Reynolds Equations of Turbulent Motion 406(5)
The Two-Dimensional Turbulent-Boundary-Layer Equations 411(3)
Velocity Profiles: The Inner, Outer, and Overlap Layers 414(11)
Turbulent Flow in Pipes and Channels 425(8)
The Turbulent Boundary Layer on a Flat Plate 433(7)
Turbulence Modeling 440(14)
Analysis of Turbulent Boundary Layers with a Pressure Gradient 454(19)
Free Turbulence: Jets, Wakes, and Mixing Layers 473(12)
Turbulent Convective Heat Transfer 485(20)
Summary 498(1)
Problems 498(7)
Compressible-Boundary-Layer Flow 505(66)
Introduction: The Compressible-Boundary-Layer Equations 505(6)
Similarity Solutions for Compressible Laminar Flow 511(3)
Solutions for Laminar Flat-Plate and Stagnation-Point Flow 514(11)
Compressible Laminar Boundary Layers under Arbitrary Conditions 525(14)
Special Topics in Compressible Laminar Flow 539(5)
The Compressible-Turbulent-Boundary-Layer Equations 544(3)
Wall and Wake Laws for Turbulent Compressible Flow 547(6)
Compressible Turbulent Flow Past a Flat Plate 553(8)
Compressible-Turbulent-Boundary-Layer Calculation with a Pressure Gradient 561(10)
Summary 566(1)
Problems 566(5)
Appendices 571(19)
A Transport Properties of Various Newtonian Fluids 571(10)
B Equations of Motion of Incompressible Newtonian Fluids in Cylindrical and Spherical Polar Coordinates 581(4)
C A Runge-Kutta Subroutine for N Simultaneous Differential Equations 585(5)
Bibliography 590
Index xxx
Preface xiii
List of Symbols xvii
Preliminary Concepts 1(58)
Historical Outline 1(3)
Some Examples of Viscous-Flow Phenomena 4(11)
Properties of a Fluid 15(30)
Boundary Conditions for Viscous-Flow Problems 45(14)
Summary 54(1)
Problems 55(4)
Fundamental Equations of Compressible Viscous Flow 59(37)
Introduction 59(1)
Classification of The Fundamental Equations 59(1)
Conservation of Mass: The Equation of Continuity 60(2)
Conservation of Momentum: The Navier-Stokes Equations 62(7)
The Energy Equation (First Law of Thermodynamics) 69(5)
Boundary Conditions for Viscous Heat-Conducting Flow 74(1)
Orthogonal Coordinate Systems 75(2)
Mathematical Character of The Basic Equations 77(4)
Dimensionless Parameters in Viscous Flow 81(3)
Vorticity Considerations in Incompressible Viscous Flow 84(2)
Two-Dimensional Considerations: The Stream Function 86(2)
Noninertial Coordinate Systems 88(1)
Control-Volume Formulations 89(7)
Summary 92(1)
Problems 92(4)
Solutions of The Newtonian Viscous-Flow Equations 96(119)
Introduction and Classification of Solutions 96(2)
Couette Flows Due to Moving Surfaces 98(8)
Poiseuille Flow through Ducts 106(19)
Unsteady Duct Flows 125(4)
Unsteady Flows with Moving Boundaries 129(6)
Asymptotic Suction Flows 135(6)
Wind-Driven Flows: The Ekman Drift 141(3)
Similarity Solutions 144(21)
Low Reynolds Number: Linearized Creeping Motion 165(18)
Computational Fluid Dynamics 183(32)
Summary 205(1)
Problems 205(10)
Laminar Boundary Layers 215(122)
Introduction 215(10)
Laminar Boundary-Layer Equations 225(5)
Similarity Solutions for Steady Two-Dimensional Flow 230(21)
Free-Shear Flows 251(6)
Other Analytic Two-Dimensional Solutions 257(4)
Approximate Integral Methods 261(10)
Digital-Computer Solutions 271(7)
Thermal-Boundary-Layer Calculations 278(9)
Flow in the Inlet of Ducts 287(3)
Rotationally Symmetric Boundary Layers 290(10)
Asymptotic Expansions and Triple-Deck Theory 300(7)
Three-Dimensional Laminar Boundary Layers 307(11)
Unsteady Boundary Layers: Separation Anxiety 318(3)
Free-Convection Boundary Layers 321(16)
Summary 328(1)
Problems 328(9)
The Stability of Laminar Flows 337(61)
Introduction: The Concept of Small-Disturbance Stability 337(7)
Linearized Stability of Parallel Viscous Flows 344(13)
Parametric Effects in the Linear Stability Theory 357(13)
Transition to Turbulence 370(8)
Engineering Prediction of Transition 378(20)
Summary 394(1)
Problems 394(4)
Incompressible Turbulent Mean Flow 398(107)
Physical and Mathematical Description of Turbulence 398(8)
The Reynolds Equations of Turbulent Motion 406(5)
The Two-Dimensional Turbulent-Boundary-Layer Equations 411(3)
Velocity Profiles: The Inner, Outer, and Overlap Layers 414(11)
Turbulent Flow in Pipes and Channels 425(8)
The Turbulent Boundary Layer on a Flat Plate 433(7)
Turbulence Modeling 440(14)
Analysis of Turbulent Boundary Layers with a Pressure Gradient 454(19)
Free Turbulence: Jets, Wakes, and Mixing Layers 473(12)
Turbulent Convective Heat Transfer 485(20)
Summary 498(1)
Problems 498(7)
Compressible-Boundary-Layer Flow 505(66)
Introduction: The Compressible-Boundary-Layer Equations 505(6)
Similarity Solutions for Compressible Laminar Flow 511(3)
Solutions for Laminar Flat-Plate and Stagnation-Point Flow 514(11)
Compressible Laminar Boundary Layers under Arbitrary Conditions 525(14)
Special Topics in Compressible Laminar Flow 539(5)
The Compressible-Turbulent-Boundary-Layer Equations 544(3)
Wall and Wake Laws for Turbulent Compressible Flow 547(6)
Compressible Turbulent Flow Past a Flat Plate 553(8)
Compressible-Turbulent-Boundary-Layer Calculation with a Pressure Gradient 561(10)
Summary 566(1)
Problems 566(5)
Appendices 571(19)
A Transport Properties of Various Newtonian Fluids 571(10)
B Equations of Motion of Incompressible Newtonian Fluids in Cylindrical and Spherical Polar Coordinates 581(4)
C A Runge-Kutta Subroutine for N Simultaneous Differential Equations 585(5)
Bibliography 590
Index xxx
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