DIY Hybrid Rocket Engine
This is a comprehensive guide based on the on Newland's "The Science and Design of the Hybrid Rocket Engine". It will cover each of the subjects that make up the process of going through a hybrid rocket engine design. It takes into consideration all of the fluid dynamic, thermodynamic, and structural considerations that make up the decision making of deigning such an engine. Here is a brief overview of how we will be splitting up the concepts:
L1: Recap of Basic Concepts
L2: Propellant Choices
L3: Use of Nitrous Oxide
L4: How Rocket Engines Work
L5: Rocket Engine Heating/Performance
L6: Energy and Exhaust Velocity
L7: The Hybrid Combustion Chamber
L8: Nitrous Hybrid Safety
L9: Designing a Hybrid Engine
L10: Building a Hybrid Engine
L11: Testing a Hybrid Engine
L12: Flying a Hybrid Engine
L2: Propellant Choices
L3: Use of Nitrous Oxide
L4: How Rocket Engines Work
L5: Rocket Engine Heating/Performance
L6: Energy and Exhaust Velocity
L7: The Hybrid Combustion Chamber
L8: Nitrous Hybrid Safety
L9: Designing a Hybrid Engine
L10: Building a Hybrid Engine
L11: Testing a Hybrid Engine
L12: Flying a Hybrid Engine