Jet Powered Tesla
Warped Perception・1 minute read
An individual successfully transforms their Tesla Model S into a jet-powered car with three engines, overcoming material shortages during the build. Using hydro diesel fuel, the car reaches 61 mph on two engines during a test run, showcasing a substantial speed improvement with jet power.
Insights
- The individual successfully modifies a Tesla Model S by installing three jet engines, creating a unique system controlled from inside the car, showcasing innovation and resourcefulness in overcoming material shortages during the build process.
- By utilizing hydro diesel fuel and designing a custom fuel gauge to monitor consumption rates, the creator achieves a significant speed boost through jet-powered acceleration, highlighting the meticulous planning and execution involved in integrating unconventional propulsion systems into an electric vehicle.
Get key ideas from YouTube videos. It’s free
Recent questions
How is a jet-powered Tesla created?
By mounting jet engines and control panels inside the car.
What fuel is used for the jet-powered Tesla?
Hydro diesel.
What speed improvement is achieved with jet power?
Significant improvement in speed.
How is refueling done for the jet-powered Tesla?
By adding kerosene and mixing turbine oil.
What is the fuel consumption rate of the jet engines?
1.5 to 2 gallons of fuel per minute.
Related videos
Summary
00:00
Jet-Powered Tesla: DIY Success Story
- The individual is mounting three jet engines on their Tesla Model S to create a system allowing control from inside the car.
- They complete the control panels inside the car and proceed to mount the jet engines and install the fuel tank.
- Due to material shortages, the build deviates from the original plan, but the final jet-powered Tesla is considered successful.
- The creator designs a fuel gauge to monitor the fuel level in the tank, crucial due to the engines burning 1.5 to 2 gallons of fuel per minute.
- The fuel used is hydro diesel, with only 10 gallons available, expected to be consumed rapidly due to the engines' high fuel consumption.
- After starting all three engines, a test run is conducted, reaching 61 mph on two engines before running out of fuel.
- Refueling involves adding kerosene and mixing turbine oil, with a specific amount required for proper operation.
- The individual conducts 0-60 runs with electric power only and then with jet power added, achieving a significant speed improvement with jet power.
