Falcon 12: a revolution in space propulsion

The Falcon 12 proposes a groundbreaking advancement in space propulsion by integrating a pyrolytic graphite reactor for water thermolysis. This innovative design aims to significantly reduce fuel consumption and enhance mission capabilities.

Key Concepts:

• Pyrolytic Graphite Reactor:
  • Located at the core of the turbine, this reactor utilizes pyrolytic graphite due to its exceptional heat resistance and ability to facilitate chemical reactions.
  • The water composition inscription on the turbine indicates an integrated water storage and delivery system.
• Water Thermolysis:
  • The process of thermolysis, or the decomposition of water into hydrogen and oxygen through heat, would supplement conventional fuel.
  • The resulting hydrogen would serve as an additional propellant, and the oxygen would support combustion.

Detailed Process:

1. Initial Combustion:

   • Upon launch, the Falcon 12 turbines employ a butane and oxygen mixture, similar to existing technology.
   • Controlled combustion generates intense heat, essential for activating the graphite reactor.

2. Reactor Heating:

   • The extremely hot exhaust gases are directed towards the pyrolytic graphite reactor, rapidly heating it to the temperature required for water thermolysis.
   • Precise gas flow control ensures uniform and efficient reactor heating.

3. Water Thermolysis:

   • Onboard stored water is injected into the heated pyrolytic graphite reactor.
   • At high temperatures, the water decomposes into hydrogen and oxygen.
   • The pyrolytic graphite acts as a catalyst, accelerating the reaction and increasing thermolysis efficiency.

4. Supplemental Propulsion:

   • The resulting hydrogen is directed to the turbine's combustion chamber, where it burns with oxygen, generating additional thrust.
   • This process significantly reduces butane consumption, increasing the rocket's range.
   • The Oxygen created from the thermolysis is also used in the combustion chamber.

5. Reaction Control:

   • Advanced sensors monitor reactor temperature and exhaust gas composition, ensuring precise thermolysis control.
   • An adaptive control system adjusts water and butane flow to maintain optimal propulsion.

Advantages of Falcon 12:

• Reduced Fuel Consumption: Water thermolysis significantly decreases reliance on fossil fuels, lowering launch costs.
• Increased Range: Hydrogen as a supplemental propellant enables longer and more complex space missions.
• Enhanced Propulsion: The combined combustion of butane and hydrogen generates superior thrust.
• Reduced Environmental Impact: By minimizing fossil fuel consumption, Falcon 12 contributes to environmental protection.

The Falcon 12 represents a revolutionary innovation, paving the way for new horizons in space exploration.