FLUID MECHANICS by Frank M. White – AKIŞKANLAR MEKANİĞİ – Kitap

FLUID MECHANICS by Frank M. White – AKIŞKANLAR MEKANİĞİ

CONTENTS – İçerik

Chapter 1 – Introduction

1.1 Preliminary Remarks
1.2 The Concept of a Fluid
1.3 The Fluid as a Continuum
1.4 Dimensions and Units
1.5 Properties of the Velocity Field
1.6 Thermodynamic Properties of a Fluid
1.7 Viscosity and Other Secondary Properties
1.8 Basic Flow-Analysis Techniques
1.9 Flow Patterns: Streamlines, Streaklines and Pathlines
1.10 The Engineering Equation Solver
1.11 Uncertainty of Experimental Data
1.12 The Fundamentals of Engineering (FE) Examination
1.13 Problem-Solving Techniques
1.14 History and Scope of Fluid Mechanics
Problems
Fundamentals of Engineering Exam Problems
Comprehensive Problems
References

Chapter 2 – Pressure Distribution in a Fluid

2.1 Pressure and Pressure Gradient
2.2 Equilibrium of a Fluid Element
2.3 Hydrostatic Pressure Distributions
2.4 Application to Manometry
2.5 Hydrostatic Forces on Plane Surfaces
2.6 Hydrostatic Forces on Curved Surfaces
2.7 Hydrostatic Forces in Layered Fluids
2.8 Buoyancy and Stability
2.9 Pressure Distribution in Rigid-Body Motion
2.10 Pressure Measurement
Summary
Problems
Word Problems
Fundamentals of Engineering Exam Problems
Comprehensive Problems
Design Projects
References

Chapter 3 – Integral Relations for a Control Volume

3.1 Basic Physical Laws of Fluid Mechanics
3.2 The Reynolds Transport Theorem
3.3 Conservation of Mass
3.4 The Linear Momentum Equation
3.5 The Angular-Momentum Theorem
3.6 The Energy Equation
3.7 Frictionless Flow: The Bernoulli Equation
Summary
Problems
Word Problems
Fundamentals of Engineering Exam Problems
Comprehensive Problems
Design Project
References

Chapter 4 – Differential Relations for a Fluid Particle

4.1 The Acceleration Field of a Fluid
4.2 The Differential Equation of Mass Conservation
4.3 The Differential Equation of Linear Momentum
4.4 The Differential Equation of Angular Momentum
4.5 The Differential Equation of Energy
4.6 Boundary Conditions for the Basic Equations
4.7 The Stream Function
4.8 Vorticity and Irrotationality
4.9 Frictionless Irrotational Flows
4.10 Some Illustrative Plane Potential Flows
4.11 Some Illustrative Incompressible Viscous Flows
Summary
Problems
Word Problems
Fundamentals of Engineering Exam Problem
Comprehensive Applied Problem
References

Chapter 5 – Dimensional Analysis and Similarity

5.1 Introduction
5.2 The Principle of Dimensional Homogeneity
5.3 The Pi Theorem
5.4 Nondimensionalization of the Basic Equations
5.5 Modeling and Its Pitfalls
Summary
Problems
Word Problems
Fundamentals of Engineering Exam Problems
Comprehensive Problems
Design Projects
References

Chapter 6 – Viscous Flow in Ducts

6.1 Reynolds-Number Regimes
6.2 Internal versus External Viscous Flows
6.3 Semiempirical Turbulent Shear Correlations
6.4 Flow in a Circular Pipe
6.5 Three Types of Pipe-Flow Problems
6.6 Flow in Noncircular Ducts
6.7 Minor Losses in Pipe Systems
6.8 Multiple-Pipe Systems
6.9 Experimental Duct Flows: Diffuser Performance
6.10 Fluid Meters
Summary
Problems
Word Problems
Fundamentals of Engineering Exam Problems
Comprehensive Problems
Design Projects
References

Chapter 7 – Flow Past Immersed Bodies

7.1 Reynolds-Number and Geometry Effects
7.2 Momentum-Integral Estimates
7.3 The Boundary-Layer Equations
7.4 The Flat-Plate Boundary Layer
7.5 Boundary Layers with Pressure Gradient
7.6 Experimental External Flows
Summary
Problems
Word Problems
Fundamentals of Engineering Exam Problems
Comprehensive Problems
Design Project
References

Chapter 8 – Potential Flow and Computational Fluid Dynamics

8.1 Introduction and Review
8.2 Elementary Plane-Flow Solutions
8.3 Superposition of Plane-Flow Solutions
8.4 Plane Flow Past Closed-Body Shapes
8.5 Other Plane Potential Flows
8.6 Images
8.7 Airfoil Theory
8.8 Axisymmetric Potential Flow
8.9 Numerical Analysis
Summary
Problems
Word Problems
Comprehensive Problems
Design Projects
References

Chapter 9 – Compressible Flow

9.1 Introduction
9.2 The Speed of Sound
9.3 Adiabatic and Isentropic Steady Flow
9.4 Isentropic Flow with Area Changes
9.5 The Normal-Shock Wave
9.6 Operation of Converging and Diverging Nozzles
9.7 Compressible Duct Flow with Friction
9.8 Frictionless Duct Flow with Heat Transfer
9.9 Two-Dimensional Supersonic Flow
9.10 Prandtl-Meyer Expansion Waves
Summary
Problems
Word Problems
Fundamentals of Engineering Exam Problems
Comprehensive Problems
Design Projects
References

Chapter 10 – Open-Channel Flow

10.1 Introduction
10.2 Uniform Flow; the Chézy Formula
10.3 Efficient Uniform-Flow Channels
10.4 Specific Energy; Critical Depth
10.5 The Hydraulic Jump
10.6 Gradually Varied Flow
10.7 Flow Measurement and Control by Weirs
Summary
Problems
Word Problems
Fundamentals of Engineering Exam Problems
Comprehensive Problems
Design Projects
References

Chapter 11 – Turbomachinery

11.1 Introduction and Classification
11.2 The Centrifugal Pump
11.3 Pump Performance Curves and Similarity Rules
11.4 Mixed- and Axial-Flow Pumps: The Specific Speed
11.5 Matching Pumps to System Characteristics
11.6 Turbines
Summary
Problems
Word Problems
Comprehensive Problems
Design Project
References

Appendix A – Physical Properties of Fluids
Appendix B – Compressible-Flow Tables
Appendix C – Conversion Factors
Appendix D – Equations of Motion in Cylindrical Coordinates
Appendix E – Introduction to EES
Answers to Selected Problems
Index

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