The video is a tutorial on how to build a homemade wind turbine. The project was developed at the Mauá Institute of Technology in Caetano do Sul, near São Paulo. The goal is to create a small-scale wind turbine that can be used at home, capable of charging a cell phone or a battery.
The turbine is made of relatively simple materials, but behind the project, there is a lot of engineering involved. The project is open source, meaning it can be improved or modified by those who wish to do so. The project is designed to be balanced and efficient, with the blades made of PVC and the turbine's axis attached at the equilibrium point of the wind pressure.
The turbine's blades are designed to be curved for maximum efficiency. The blades are shaped using a template and a laser cutter. The blades are then softened using a mold and PVC, which is then hardened to form the final shape. The blades are then attached to the turbine's axis.
The turbine's generator mechanism is also explained in detail. The generator is a 6-volt motor that rotates at 380 rpm. The generator is connected to a battery, a set of LEDs, and a USB device. The generator can be used to charge a cell phone or a battery.
The video concludes with a demonstration of the turbine in action, showing that it can generate a significant amount of electricity. The video also provides a link to a detailed document explaining everything in more detail.
1. The project involves creating a homemade wind turbine.
2. The project was created at the Mauá Institute of Technology, located in Caetano do Sul, near São Paulo.
3. The project aims to bring together the tripod of innovation in engineering to make the project work.
4. The project is designed to be cheap, realistic, and easy to use.
5. The project is designed to be used at home, with the intention of charging a cell phone.
6. The project involves the use of relatively simple materials, but behind the project there is a lot of engineering.
7. The project involves the use of a 3D printer, laser cutting, a 3D router, and other tools.
8. The project is designed to be a social project, sharing the benefits of wind energy with people who desire to carry it out at home.
9. The project involves the use of PVC for the blades of the wind turbine.
10. The project involves the use of an ACMC router, a machine that works like a drill, controlled by a computer.
11. The project involves the use of a template for the root of the blade and the tip of the blade.
12. The project involves the use of a belt sander to soften the PVC.
13. The project involves the use of a clamp to get a perfect marking.
14. The project involves the use of a parking meter, a ruler, and a weak point at the common border to fix it.
15. The project involves the use of a bicycle hub as the axle support.
16. The project involves the use of a 6 volt motor that rotates at 380 rpm.
17. The project involves the use of a reduction box to reduce the engine rotation.
18. The project involves the use of a battery that will store energy, a set of LEDs, and a USB.
19. The project involves the use of an anemometer to measure the wind speed.
20. The project involves the use of a switch before reaching the LED and through a switch before reaching the battery.
21. The project involves the use of a battery that is easy to find and is also cheap.
22. The project involves the use of a small percentage of the rotation to charge a cell phone.
23. The project involves the use of a small percentage of the rotation to light up a lamp.
24. The project involves the use of a small percentage of the rotation to brake a car.
25. The project involves the use of a small percentage of the rotation to short it at the tip of the two terminals.
26. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
27. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
28. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
29. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
30. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
31. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
32. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
33. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
34. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
35. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
36. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
37. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
38. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
39. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
40. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
41. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
42. The project involves the use of a small percentage of the rotation to see the noise of the cold engine.
43. The