I built an IONIC PLASMA THRUSTER (Best Design)

Integza
15 Aug 202310:01

Summary

TLDRIn this video, the creator experiments with ionic wind, generated by electrical discharge, to develop a bladeless fan and potentially a jet engine. Through various designs and materials, including electroplating and 3D printing, the project evolves into a light, efficient thruster. The video also features a humorous attempt at creating a low-cost Zeppelin with helium balloons, emphasizing the fun and educational nature of the experiment.

Takeaways

  • đŸ˜Č The video demonstrates the creation of an ionic wind using electrical discharge.
  • 🔌 A simple design with stacked wires in tubes can generate a decent fan, as shown in a previous video.
  • 🚀 To transform the fan into a jet engine, the design needs to focus the flow of air, starting with a cable and tube.
  • 💡 The video explores different designs for generating ionic wind, including a nickel strip and a round metal ring.
  • ⚡ High voltage transformers are used to create the electrical discharge necessary for ionic wind, with caution needed due to their power.
  • 🔧 The design is refined by combining a tube with round edges to improve air flow and reduce sparking.
  • 🔋 A lighter alternative to the heavy transformer is explored using a plasma lighter, but it doesn't work as well.
  • 🛠 Electroplating is introduced as a method to create a thin layer of metal on lightweight parts, making them conductive.
  • 🚀 The final design is tested with a lithium-ion battery, showing significant progress in generating thrust.
  • 🎈 An attempt is made to create a low-cost zeppelin using helium-filled balloons, highlighting the challenges of buoyancy.

Q & A

  • What is the phenomenon described at the beginning of the video?

    -The phenomenon described is the creation of an ionic wind, which is produced when electrons collide with air molecules, causing them to be projected in a certain direction.

  • How does the simple design of a fan using ionic wind work?

    -The fan design involves stacking wires in tubes, which when electrified, can generate a flow of air due to the ionic wind effect.

  • What is the main challenge in turning the ionic fan into a jet engine?

    -The main challenge is focusing the flow of air effectively, which requires a design that can direct the ionic wind in a concentrated manner.

  • Why is a high voltage transformer used in the experiment?

    -A high voltage transformer is used to step up the voltage from a low input (about 5 volts) to a high output (thousands of volts), which is necessary to create the electrical discharge for generating ionic wind.

  • What is the difference between corona discharge and the discharge that generates wind?

    -Corona discharge is a type of electrical discharge that does not generate wind, whereas the discharge that generates wind is an ionic wind caused by the movement of electrons colliding with air molecules.

  • What design improvements were made to the negative ball in the experiment?

    -The negative ball was improved by using a nickel strip bent around the tube and creating spikes with scissors. This design helps to focus the ionic wind more effectively.

  • Why is a round, smooth surface needed on the positive side of the ionic thruster?

    -A round, smooth surface on the positive side helps to prevent sparking and allows for a more controlled and focused flow of ionic wind.

  • What is the significance of combining both designs in the ionic thruster?

    -Combining both designs (a tube with round edges and a negative ball with spikes) aims to create a more effective ionic thruster by focusing the air flow and maximizing the ionic wind generation.

  • Why is the weight of the transformer a concern in the ionic thruster design?

    -The weight of the transformer is a concern because it affects the overall efficiency and performance of the ionic thruster. A lighter design is preferable for better thrust.

  • What is electroplating and how is it used in the project?

    -Electroplating is a process that deposits a thin layer of metal onto a conductive surface. In the project, it is used to make a light resin part conductive by adding a thin layer of copper, which helps in creating a more lightweight and efficient ionic thruster.

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Étiquettes Connexes
Ionic ThrusterDIY ProjectElectrical DischargeWind GenerationHigh Voltage3D PrintingElectroplatingZeppelin DesignHelium BalloonInnovation
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