10.1 Pressure-Fed vs. Pump-Fed Systems 10.2 Tank Pressurization (Self-pressurizing vs. Helium) 10.3 Injector Design for Hybrids (Showerhead, Pintle, Vortex) 10.4 Flow Control and Throttling Valves
9.1 Single vs. Multi-Port Configurations 9.2 Web Fraction and Sliver 9.3 Structural Integrity of Fuel Grain 9.4 Manufacturing Techniques (Casting, Additive Manufacturing)
19.1 SpaceShipOne / SpaceShipTwo (Scaled Composites) 19.2 AMROC H-2500 19.3 NASA/Stanford Paraffin Hybrids 19.4 Student and Amateur Successes Appendices Appendix A: Propellant Properties Tables Appendix B: Common Regression Rate Correlations Appendix C: Example Design Calculations Appendix D: Test Stand Checklist and Safety Forms Appendix E: Open-Source Hybrid Rocket Design Tools Appendix F: Glossary of Terms Appendix G: Further Reading and Key Papers Index About the Author the science and design of the hybrid rocket engine pdf
16.1 Metalized and Nano-Enhanced Fuels 16.2 Hybrid Boosters for Launch Vehicles 16.3 High-Pressure Hybrid Engines
17.1 N₂O-Based Systems 17.2 High-Concentration H₂O₂ 17.3 Non-Toxic Oxidizers and Low-Emissions Fuels Multi-Port Configurations 9
18.1 Safety and Reliability Considerations 18.2 Throttling for Landing (Lunar/Planetary Descent) 18.3 Abort Capability and Restart in Space
2.1 Thrust Equation and Specific Impulse 2.2 Characteristic Velocity and Thrust Coefficient 2.3 Nozzle Theory and Expansion Ratio 2.4 Mass Flow Rate in Hybrid Systems N₂O₄) 3.2 Fuels (HTPB
3.1 Oxidizers (LOX, N₂O, H₂O₂, N₂O₄) 3.2 Fuels (HTPB, PMMA, Paraffin, ABS, Hybrid Nanomaterials) 3.3 Equilibrium Combustion and Adiabatic Flame Temperature 3.4 Mixture Ratio and Its Effect on Performance 3.5 Combustion Products and Environmental Impact Part II: Internal Ballistics and Combustion Physics Chapter 4: Fuel Regression Rate 4.1 Classical Boundary-Layer Combustion Theory 4.2 Diffusion Flame Mechanism 4.3 Empirical Regression Rate Laws 4.4 Classical Low-Rate Problem and Its Implications
13.1 One-Dimensional Ballistic Codes 13.2 CFD for Hybrid Combustion 13.3 Thermomechanical Analysis of Grain 13.4 Uncertainty Quantification and Sensitivity Analysis
7.1 Ignition Transients 7.2 Throttling Capability 7.3 Extinction and Restart 7.4 Scale-Up Limits (O/F Shift, L/D Ratio) Part III: Design Methodologies Chapter 8: Preliminary Design of a Hybrid Rocket Engine 8.1 Mission Requirements and Design Parameters 8.2 Selection of Propellant Combination 8.3 Initial Grain Geometry Design 8.4 Nozzle Sizing and Throat Erosion 8.5 Iterative Performance Prediction
5.1 Multi-Port Fuel Grains 5.2 Liquefying Fuels (Paraffin-based Systems) 5.3 Swirl and Vortex Injection 5.4 Embedded Oxidizer and Additives