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Introduction to Fluid Mechanics, Sixth Edition

Introduction to Fluid Mechanics, Sixth Edition

Wydawnictwo Taylor & Francis Ltd
Data wydania 16/04/2020
Liczba stron 734
Forma publikacji książka w twardej oprawie
Poziom zaawansowania Dla szkół wyższych i kształcenia podyplomowego
ISBN 9780367341275
Kategorie Mechanika ciał ciekłych, Mechanika ciał ciekłych
Zastępuje 9781482211610
728.00 PLN (z VAT)
$193.83 / €164.99 / £148.49 /
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Dostawa 2 dni
Do schowka

Opis książki

Introduction to Fluid Mechanics, Sixth Edition, is intended to be used in a first course in Fluid Mechanics, taken by a range of engineering majors. The text begins with dimensions, units, and fluid properties, and continues with derivations of key equations used in the control-volume approach. Step-by-step examples focus on everyday situations, and applications. These include flow with friction through pipes and tubes, flow past various two and three dimensional objects, open channel flow, compressible flow, turbomachinery and experimental methods. Design projects give readers a sense of what they will encounter in industry. A solutions manual and figure slides are available for instructors.

Introduction to Fluid Mechanics, Sixth Edition

Spis treści

Chapter 1 Fundamental Concepts

1.1 Dimensions and Units

1.2 Definition of a Fluid

1.3 Properties of Fluids

1.4 Liquids and Gases

1.5 Continuum


Chapter 2 Fluid Statics

2.1 Pressure and Pressure Measurement

2.2 Hydrostatic Forces on Submerged Plane Surfaces

2.3 Hydrostatic Forces on Submerged Curved Surfaces

2.4. Equilibrium of Accelerating Fluids

2.5 Forces on Submerged Bodies

2.6 Stability of Submerged and Floating Bodies

2.7 Summary

Internet Resources


Chapter 3 Basic Equations of Fluid Mechanics

3.1 Kinematics of Flow

3.2 Control Volume Approach

3.3 Continuity Equation

3.4 Momentum Equation

3.4.1 Linear Momentum Equation

3.5 Energy Equation

3.6 Bernoulli Equation

3.7 Summary

Internet Resources


Chapter 4 Dimensional Analysis and Dynamic Similitude

4.1 Dimensional Homogeneity and Analysis

4.2 Dimensionless Ratios

4.3 Dimensional Analysis by Inspection

4.4 Similitude

4.5 Correlation of Experimental Data

4.6 Summary

Internet Resources


Chapter 5 Flow in Closed Conduits

5.1. Laminar and Turbulent Flows

5.2. Effect of Viscosity

5.3 Pipe Dimensions and Specifications

5.4 Equation of Motion

5.5 Friction Factor and Pipe Roughness

5.6 Simple Piping Systems

5.7 Minor Losses

5.8 Pipes in Parallel

5.9 Pumps and Piping Systems

5.10 Summary

Internet Resources


Chapter 6 Flow over Immersed Bodies

6.1. Flow past a Flat Plate

6.2 Flow past Various Two-Dimensional Bodies

6.3 Flow past Various Three-Dimensional Bodies

6.4 Applications to Ground Vehicles

6.5 Lift on Airfoils

6.6. Summary

Internet Resources


Chapter 7 Flow in Open Channels

7.1 Types of Open-Channel Flows

7.2 Open-Channel Geometry Factors

7.3 Energy Considerations in Open-Channel Flows

7.4 Critical Flow Calculations

7.5. Equations for Uniform Open-Channel Flows

7.6 Hydraulically Optimum Cross Section

7.7 Nonuniform Open-Channel Flow

7.8 Summary

Internet Resources


Chapter 8 Compressible Flow

8.1 Sonic Velocity and Mach Number

8.2 Stagnation Properties and Isentropic Flow

8.3 Flow through a Channel of Varying Area

8.4 Normal Shock Waves

8.5 Compressible Flow with Friction

8.6 Compressible Flow with Heat Transfer

8.7 Summary

Internet Resources


Chapter 9 Turbomachinery

9.1 Equations of Turbomachinery

9.2 Axial-Flow Turbines

9.3 Axial-Flow Compressors, Pumps, and Fans

9.4 Radial-Flow Turbines

9.5. Radial-Flow Compressors and Pumps

9.6 Power-Absorbing versus Power-Producing Machines

9.7 Dimensional Analysis of Turbomachinery

9.8 Performance Characteristics of Centrifugal Pumps

9.9 Performance Characteristics of Hydraulic Turbines

9.10 Impulse Turbine (Pelton Turbine)

9.11 Summary


Chapter 10 Measurements in Fluid Mechanics

10.1. Measurement of Viscosity

10.2 Measurement of Static and Stagnation Pressures

10. 3 Measurement of Velocity

10.4 Measurement of Flow Rates in Closed Conduits

10.5 Measurements in Open-Channel Flows

10.6 Summary


Chapter 11 The Navier-Stokes Equations

11.1 Equations of Motion

11.2 Applications to Laminar Flow

11.3. Graphical Solution Methods for Unsteady Laminar Flow Problems

11.4. Introduction to Turbulent Flow

11.5. Summary


Chapter 12 Inviscid Flow

12.1 Equations of Two-Dimensional Inviscid Flows

12.2 Stream Function and Velocity Potential

12.3 Irrotational Flow

12.4 Laplace's Equation and Various Flow Fields

12.5 Combined Flows and Superpositions

12.6 Inviscid Flow past an Airfoil

12.7 Summary


Chapter 13 Boundary-Layer Flow

13.1 Laminar and Turbulent Boundary-Layer Flow

13.2 Equations of Motion for the Boundary Layer

13.3 Laminar Boundary-Layer Flow over a Flat Plate

13.4 Momentum Integral Equation

13.5 Momentum Integral Method for Laminar Flow over a Flat Plate

13.6. Momentum Integral Method for Turbulent Flow over a Flat Plate

13.7 Laminar and Turbulent Boundary-Layer Flow over a Flat Plate

13.8 Summary


Appendix A: Conversion Factors and Properties of Substances

Appendix B: Geometric Elements of Plane Areas

Appendix C: Pipe and Tube Specifications

Appendix D: Compressible Flow Tables

Appendix E: Miscellaneous



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