Space Propulsion Analysis and Design

摘要: List of Authors and Editors Preface Chapter 1 Introduction to Space Propulsion 1.1 Rocket Fundamentals 1.2 The Design Process 2 Mission Analysis 2.1 Keplerian Orbits 2.2 Orbit Perturbations 2.3 Maneuvering 2.4 Launch Windows 2.5 Maintenance 2.6 Earth 3 Thermodynamics Fluid Flow 3.1 Mass Transfer 3.2 Thermodynamic Relations (Energy Entropy) 3.3 Thrust Equations 3.4 Heat Addition 3.5 HEat 3.6 Example-Cold-Gas Thruster 4 Thermochemistry 4.1 Chemical Source: Bond Energy 4.2 Basics 4.3 Products Combustion 4.4 Flame Temperature: Available-Heat Method 4.5 Kinetics: Speed the Reactions 4.6 Liquids vs.Solids 4.7 Propellant Characteristics Their Implications 4.8 Key Thermochemical Parameters: Bottom Line 5 Liquid Systems 5.1 History 5.2 5.3 Preliminary Decisions 5.4 System Sizing, Design, Trade-off 5.5 Case Study 6 Solid Motors 6.1 Background 6.2 6.3 Sizing 6.4 Propellants 6.5 Performance Prediction 6.6 7 Hybrid 7.1 7.2 Hybrid-Motor Ballistics 7.3 7.4 7.5 Estimate 7.6 Component 7.7 8 Nuclear 8.1 8.2 8.3 8.4 Size Reactor 8.5 Radiation Shield 8.6 Evaluate Vehicle Operation 8.7 9 Electric 9.1 Status 9.2 9.3 Specify 9.4 Select an 9.5 Power 9.6 Assess 9.7 9.8 10 10.1 Define Requirements 10.2 Develop Criteria a 10.3 Alternative Concepts 10.4 Potential Technologies 10.5 Designs for 10.6 Configurations 10.7 Compare Choose Best Option 11 Advanced 11.1 Air-Augmented Rockets 11.2 Advancements 11.3 Nonrocket 11.4 Interstellar Flight Appendix A Units Conversions Factors B Data Selected C Vehicles Staging Index