| 1 |
Introduction |
| 2 |
Rocket Nozzles and Thrust |
| 3 |
Review of Ideal Nozzle Fluid Mechanics |
| 4-5 |
Nozzle Off-Design Operation and Non-Idealities |
| 6 |
Effects of Particles in Nozzle Flow |
| 7 |
Convective Heat Transfer: Reynolds Analogy |
| 8 |
Convective Heat Transfer: Other Effects |
| 9 |
Liquid Cooling |
| 10 |
Ablative Cooling, Film Cooling |
| 11 |
Radiation Heat Transfer and Cooling |
| 12 |
Review of Equilibrium Thermochemistry |
| 13 |
Examples of Chemical Equilibrium |
| 14 |
Non-Equilibrium Flows |
| 15 |
Selection of Propellant Mixtures |
| 16 |
Solid Propellants: Design Goals and Constraints |
| 17-18 |
Solid Propellants: Other Topics |
| 19 |
Liquid Propellants |
| 20 |
Combustion of Liquid Propellants |
| 21 |
Liquid Motors: Injection and Mixing |
| 22 |
Liquid Motors: Stability (Low Frequency) |
| 23 |
Liquid Motors: Stability (High Frequency)
Acoustics |
| 24 |
Pressurization and Pump Cycles |
| 25 |
Basic Turbomachine Performance |
| 26 |
Turbopumps |
| 27 |
Turbines |
| 28 |
Mechanical Design of Turbomachinery |
| 29 |
Rotordynamics Problems |
| 30 |
Dynamics of Turbopump Systems: The Shuttle Engine |
| 31 |
Active Control of Rockets |
| 32 |
Orbital Mechanics: Review, Staging |
| 33 |
Performance to LEO |
| 34 |
Performance to GEO |
| 35-36 |
Impulsive and Low-Thrust Maneuvers in Space |
| 37 |
Future Developments |