One-Dimensional Compressible Flow

PrefaceNotation1 Concepts from Thermodynamics and Fluid Mechanics 1.1 System, Control Volume and Control Surface 1.2 The One-Dimensional Approximation 1.3 Conservation of Mass: Continuity Equation 1.4 Newton's Second Law of Motion: Momentum Equation 1.5 The First Law of Thermodynamics 1.6 The Second Law of Thermodynamics 1.7 Stagnation States 1.8 Compressibility and Speed of Sound 1.9 Classification of Compressible Flows: Mach Number 1.10 One-Dimensional Steady Flow Equations in Terms of Mach Number 1.11 Shock Waves Exercises2 Isentropic Flow 2.1 General Features of Steady, Inviscid Isentropic Flow 2.2 Applications of Isentropic Flow Assumption 2.3 Isentropic Flow of a Perfect Gas 2.4 Mass Flow Rate and Choking in Isentropic Flow 2.5 Thrust 2.6 Tables for Isentropic Flow Exercises3 Flow in a Duct of Variable Cross-Sectional Area 3.1 Convergent Duct 3.2 Convergent-Divergent Duct 3.3 Calculation of Flow in Ducts of Varying Cross-Sectional Area 3.4 Supersonic Diffusers 3.5 Instability of a Normal Shock in a Convergent Passage Exercises4 Flow with Friction or Heat Transfer 4.1 Introduction 4.2 Adiabatic Flow in a Duct of Constant Cross-Sectional Area with Friction 4.3 Flow in a Duct of Constant Cross-Sectional Area with Heat Transfer Exercises5 One-Dimensional Unsteady Flow 5.1 Propagation of Small Disturbances 5.2 Unsteady Flow with Finite changes in Fluid Properties 5.3 Mathematical Theory of One-Dimensional Homentropic Unsteady Flow ExercisesTable 1. One-Dimensional Normal Shock in a Perfect GasTable 2. One-Dimensional Isentropic Flow of a Perfect GasTable 3. Fanno Flow of a Perfect Gas - One-Dimensional Adiabatic Flow of a Perfect Gas in a Duct of Constant Cross-Sectional Area with FrictionTable 4. Rayleigh Flow of a Perfect Gas - One-Dimensional, Frictionless Flow of a Perfect Gas in a Duct of Constant Cross-sectional Area with Stagnation Temperature ChangeTable 5. The Standard AtmosphereTable 6 Specific Heat DataReferencesIndex