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Thursday, April 20, 2023
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ð Daily Questionsâ
ð Last night, after work, Iâ
ð One thing I'm excited about right now isâ
ð One+ thing I plan to accomplish today isâ
- [ ]
ð One thing I'm struggling with today isâ
ð Ephemeral Notesâ
- How rocket engines work
- Rocket engines expels gas to propel the rocket forward
- The engine contains a combustion chamber and rocket nozzle (de Laval nozzle)
- Converts hot subsonic high-pressure gas that was in the chamber to cooler supersonic lower-pressure gas in the exhaust
- The higher the pressure and temperature inside the engine the better
- Where is enthalpy or the total energy in the system, is internal energy, is pressure and is volume
- Cold gas thrusters are the simplest form of rocket engines
- The gas is kept in a pressurized tank and it expels out from high pressure to low pressure
- The tank is cold because when gases expand out from high pressure the temperature drops due to Joule-Thompson effect
- To store the most energy, a cold gas thruster needs to store as much propellant at the highest possible pressure in the lightest possible tank which is the biggest challenge
- Example usage are the maneuvering thrusters on Falcon 9 interstage and on NASA's manned maneuvering units
- Pressure fed engines
- They can be monopropellant or bipropellant
- The difference is that in addition to the pressure tank and exhaust valve, there is a propellant tank in between
- This is more efficient because it utilizes the chemical energy from running the propellant over a chemical bed
Notes created todayâ
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Notes last touched todayâ
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created: 2023-01-16 11:50