Document Outline

Front Matter
Preface
Table of Contents
1. Classification
- 1.1. Duct Jet Propulsion
- 1.2. Rocket Propulsion
- 1.3. Applications of Rocket Propulsion
- References
2. Definitions and Fundamentals
- 2.1. Definitions
- 2.2. Thrust
- 2.3. Exhaust Velocity
- 2.4. Energy and Efficiencies
- 2.5. Typical Performance Values
- Problems
- Symbols
- References
3. Nozzle Theory and Thermodynamic Relations
- 3.1. Ideal Rocket
- 3.2. Summary of Thermodynamic Relations
- 3.3. Isentropic Flow through Nozzles
- 3.4. Nozzle Configurations
- 3.5. Real Nozzles
- 3.6. Four Performance Parameters
- 3.7. Nozzle Alignment
- 3.8. Variable Thrust
- Problems
- Symbols
- References
4. Flight Performance
- 4.1. Gravity-Free Drag-Free Space Flight
- 4.2. Forces Acting on a Vehicle in the Atmosphere
- 4.3. Basic Relations of Motion
- 4.4. Effect of Propulsion System on Vehicle Performance
- 4.5. Space Flight
- 4.6. Flight Maneuvers
- 4.7. Flight Vehicles
- 4.8. Military Missiles
- 4.9. Aerodynamic Effect of Exhaust Plumes
- 4.10. Flight Stability
- Problems
- Symbols
- References
5. Chemical Rocket Propellant Performance Analysis
- 5.1. Background and Fundamentals
- 5.2. Analysis of Chamber or Motor Case Conditions
- 5.3. Analysis of Nozzle Expansion Processes
- 5.4. Computer Analysis
- 5.5. Results of Thermochemical Calculations
- Problems
- Symbols
- References
6. Liquid Propellant Rocket Engine Fundamentals
- 6.1. Propellants
- 6.2. Propellant Feed Systems
- 6.3. Gas Pressure Feed Systems
- 6.4. Propellant Tanks
- 6.5. Tank Pressurization
- 6.6. Turbopump Feed Systems and Engine Cycles
- 6.7. Flow and Pressure Balance
- 6.8. Rocket Engines for Maneuvering, Orbit Adjustments, or Attitude Control
- 6.9. Valves and Pipe Lines
- 6.10. Engine Support Structure
- Problems
- Symbols
- References
7. Liquid Propellants
- 7.1. Propellant Properties
- 7.2. Liquid Oxidizers
- 7.3. Liquid Fuels
- 7.4. Liquid Monopropellants
- 7.5. Gelled Propellants
- 7.6. Gaseous Propellants
- 7.7. Safety and Environmental Concerns
- Problems
- Symbols
- References
8. Thrust Chambers
- 8.1. Injectors
- 8.2. Combustion Chamber and Nozzle
- 8.3. Heat Transfer Analysis
- 8.4. Starting and Ignition
- 8.5. Variable Thrust
- 8.6. Sample Thrust Chamber Design Analysis
- Problems
- Symbols
- References
9. Combustion of Liquid Propellants
- 9.1. Combustion Process
- 9.2. Analysis and Simulation
- 9.3. Combustion Instability
- Problems
- References
10. Turbopumps, Engine Design, Engine Controls, Calibration, Integration, and Optimization
- 10.1. Turbopumps
- 10.2. Performance of Complete or Multiple Rocket Propulsion Systems
- 10.3. Propellant Budget
- 10.4. Engine Design
- 10.5. Engine Controls
- 10.6. Engine System Calibration
- 10.7. System Integration and Engine Optimization
- Problems
- Symbols
- References
11. Solid Propellant Rocket Fundamentals
- 11.1. Propellant Burning Rate
- 11.2. Basic Performance Relations
- 11.3. Propellant Grain and Grain Configuration
- 11.4. Propellant Grain Stress and Strain
- 11.5. Attitude Control and Side Maneuvers with Solid Propellant Rocket Motors
- Problems
- Symbols
- References
12. Solid Propellants
- 12.1. Classification
- 12.2. Propellant Characteristics
- 12.3. Hazards
- 12.4. Propellant Ingredients
- 12.5. Other Propellant Categories
- 12.6. Liners, Insulators, and Inhibitors
- 12.7. Propellant Processing and Manufacture
- Problems
- References
13. Combustion of Solid Propellants
- 13.1. Physical and Chemical Processes
- 13.2. Ignition Process
- 13.3. Extinction or Thrust Termination
- 13.4. Combustion Instability
- Problems
- References
14. Solid Rocket Components and Motor Design
- 14.1. Motor Case
- 14.2. Nozzle
- 14.3. Igniter Hardware
- 14.4. Rocket Motor Design Approach
- Problems
- References
15. Hybrid Propellant Rockets
- 15.1. Applications and Propellants
- 15.2. Performance Analysis and Grain Configuration
- 15.3. Design Example
- 15.4. Combustion Instability
- Symbols
- References
16. Thrust Vector Control
- 16.1. TVC Mechanisms with a Single Nozzle
- 16.2. TVC with Multiple Thrust Chambers or Nozzles
- 16.3. Testing
- 16.4. Integration with Vehicle
- References
17. Selection of Rocket Propulsion Systems
- 17.1. Selection Process
- 17.2. Criteria for Selection
- 17.3. Interfaces
- References
18. Rocket Exhaust Plumes
- 18.1 Plume Appearance and Flow Behavior
- 18.2. Plume Effects
- 18.3. Analysis and Mathematical Simulation
- Problems
- References
19. Electric Propulsion
- 19.1. Ideal Flight Performance
- 19.2. Electrothermal Thrusters
- 19.3. Non-Thermal Electric Thrusters
- 19.4. Optimum Flight Performance
- 19.5. Mission Applications
- 19.6. Electric Space-Power Supplies and Power-Conditioning Systems
- Problems
- Symbols
- References
20. Rocket Testing
- 20.1. Types of Tests
- 20.2. Test Facilities and Safeguards
- 20.3. Instrumentation and Data Management
- 20.4. Flight Testing
- 20.5. Postaccident Procedures
- References
Appendix 1: Conversion Factors and Constants
Appendix 2: Properties of the Earth's Standard Atmosphere
Appendix 3: Summary of Key Equations for Ideal Chemical Rockets
Appendix 4: Derivation of Hybrid Fuel Regression Rate Equation in Chapter 15
Appendix 5: Alternative Interpretations of Boundary Layer Blowing Coefficient in Chapter 15
Index
- A
- B
- C
- D
- E
- F
- G
- H
- I
- J
- K
- L
- M
- N
- O
- P
- Q
- R
- S
- T
- U
- V
- W
- X
- Y

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