COMPRESSION FLUID FLOW

Le Monde En Tique

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Ouvrage 0-07-115426-4 : COMPRESSION FLUID FLOW
Table of Contents Preface
Nomenclature
1 Introduction
1.1 Compressibility 1.2 Fundamental Assumptions 1.3 Units
1.4 Conservations Laws 1.5 Concluding Remarks 2 The Equations of Steady One-Dimensional Compressible Fluid Flow 2.1 Introduction
2.2 Control Volume 2.3 Continuity Equation 2.4 Momentum Equation (Euler's Equation) 2.5 Steady Flow Energy Equation 2.6 Equation of State 2.7 Entropy Considerations 2.8 Use of the One-Dimensional Flow Equations 2.9 Concluding Remarks 3 Some Fundamental Aspects of Compressible Flow 3.1 Introduction
3.2 Isentropic Flow in a Streamtube 3.3 Speed of Sound 3.4 Mach Waves
3.5 Concluding Remarks 4 One-Dimensional Isentropic Flow 4.1 Introduction
4.2 Governing Equations 4.3 Stagnation Conditions 4.4 Critical Conditions 4.5 Maximum Discharge Velocity 4.6 Isentropic Relations in Tabular and Graphical Form
4.7 Concluding Remarks 5 Normal Shock Waves 5.1 Shock Waves
5.2 Stationary Normal Shock Waves 5.3 Normal Shock Wave Relations in Terms of Mach Number
5.4 The Pitot Tube in Supersonic Flow 5.5 Moving Normal Shock Waves 5.6 Concluding Remarks 6 Oblique Shock Waves 6.1 Introduction
6.2 Oblique Shock Wave Relations 6.3 Reflection of Oblique Shock Waves 6.4 Interaction of Oblique Shock Waves 6.5 Conical Shock Waves 6.6 Concluding Remarks 7 Expansion Waves: Prandtl-Meyer Flow 7.1 Introduction
7.2 Prandtl-Meyer Flow 7.3 Reflection and Interaction of Expansion Waves 7.4 Boundary Layer Effects on Expansion Waves 7.5 Flow over Bodies Involving Shock and Expansion Waves
7.6 Unsteady Expansion Waves 7.7 Concluding Remarks 8 Variable Area Flow 8.1 Introduction
8.2 Effects of Area Changes on Flow 8.3 Equations for Variable Area Flow 8.4 Operating Characteristics of Nozzles 8.5 Convergent-Divergent Supersonic Diffusers
8.6 Transonic Flow over a Body 8.7 Concluding Remarks 9 Adiabatic Flow in a Duct with Friction 9.1 Introduction
9.2 Flow in a Constant Area Duct 9.3 Friction Factor Variations 9.4 The Fanno Line 9.5 Frictional Flow in a Duct Preceded by an Isentropic Nozzle 9.6 The Effects of Friction on Variable Area Flow 9.7 Concluding Remarks 10 Flow with Heat Addition or Removal 10.1 Introduction 10.2 One-Dimensional Flow in a Constant Area Duct Neglecting Viscosity 10.3 Entropy-Temperature Relations 10.4 Variable Area Flow with Heat Addition 10.5 One-Dimensional Constant Area Flow with Both Heat Exchange and Friction 10.6 Isothermal flow with Friction in a Constant Area Duct 10.7 Combustion Waves 10.8 Condensation Shocks 10.9 Concluding Remarks 11 Generalized Quasi-One-Dimensional Flow 11.1 Introduction 11.2 Governing Equations and Influence Coefficients
11.3 Solution Procedure for Generalized Flow with No Sonic Point
11.4 Flow with a Sonic Point 11.5 Concluding Remarks 12 Numerical Analysis of One-Dimensional Flow 12.1 Introduction 12.2 Governing Equations 12.3 Discretizations 12.4 Stability and Accuracy 12.5 Under-relaxation 12.6 Steady Isentropic Subsonic Flow 12.7 Steady Isentropic Supersonic Flow 12.8 Unsteady One-Dimensional Flow 12.9 Concluding Remarks 13 An Introduction to Two-Dimensional Compressible Flow 13.1 Introduction 13.2 Governing Equations 13.3 Vorticity Considerations 13.4 The Velocity Potential 13.5 Linearized Solutions 13.6 Linearized Subsonic Flow 13.7 Linearized Supersonic Flow 13.8 Method of Characteristics 13.9 Numerical Solutions 13.10 Concluding Remarks 14 Hypersonic Flow 14.1 Introduction 14.2 Characteristics of Hypersonic Flow 14.3 Newtonian Theory 14.4 Modified Newtonian Theory 14.5 Forces on a Body 14.6 Concluding Remarks 15 High Temperature Flows 15.1 Introduction 15.2 Effect of Temperature on Specific Heats 15.3 Perfect Gas Law 15.4 Dissociation and Ionization 15.5 Nonequilibrium Effects 15.6 Concluding Remarks 16 Low Density Flows 16.1 Introduction 16.2 Knudsen Number 16.3 Low Density Flow Regimes 16.4 Slip Flow
16.5 Free Molecular Flow 16.6 Concluding Remarks Appendices
A Using the Software B Isentropic Flow Tables for y = 1.4 C Normal Shock Tables for y = 1.4 D Tables for One-Dimensional Adiabatic Flow with Friction for y = E Tables for One-Dimensional Flow with Heat Exchange for y =
F Tables for One-Dimensional Isothermal Flow with Friction for y = G Oblique Shock Wave Charts for y = 1.4 H Approximate Properties of the Standard Atmosphere
I Properties of Dry Air at Atmospheric Pressure J Constants, Conversion Factors, and Units K Optical Methods in Compressible Flows L Simple BASIC Programs for Compressible Flow Bibliography
Index

Auteur : OOSTHUIZEN
Editeur : MAC GRAW HILL
Nombre de pages : 548
Date de publication : 08 1997

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