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Friday 8 September 2023

how to make free energy generator with 36 volt brushless motor and dc motor at home new experiment

Introduction:

In a world that relies heavily on conventional energy sources, the idea of generating free energy at home has always fascinated inventors and DIY enthusiasts. While the concept of a perpetual motion machine remains elusive, we can still explore alternative energy sources that can help us harness the power of nature. In this experiment, we will guide you through the process of creating a simple free energy generator using a 36-volt brushless motor and a DC motor. Keep in mind that this project is for educational purposes and may not provide a perpetual source of energy.

Materials Required:

1. 36-volt brushless motor

2. DC motor

3. Neodymium magnets

4. Plywood or acrylic sheets

5. Bearings

6. Wooden or plastic frame

7. Screws and bolts

8. PVC pipe or wooden dowel

9. Wiring and connectors

10. Glue, epoxy, or adhesive tape

11. Battery or capacitor bank (for energy storage)

12. Multimeter (for testing and measurement)

13. Safety goggles and gloves

14. Hand tools (screwdriver, saw, drill, etc.)

Procedure:

1. Design and Planning:

- Begin by planning your free energy generator. Sketch out a design for the frame and the placement of the motors, magnets, and other components.

2. Frame Construction:

- Build the frame using plywood or acrylic sheets. Ensure it's sturdy enough to support the motors and other components.

3. Mount the Motors:

- Attach the 36-volt brushless motor and the DC motor securely to the frame. The brushless motor will be used as the generator, while the DC motor will serve as a rotor.

4. Position the Magnets:

- Attach neodymium magnets to the rotor of the DC motor. Make sure the magnets are evenly spaced and securely fastened.

5. Create a Rotor Support:

- Attach bearings to support the rotor. This will allow it to spin freely within the frame.

6. Connect the Motors:

- Connect the brushless motor to the DC motor using wiring and connectors. Ensure the connection is secure and allows for rotation.

7. Position the Generator:

- Position the brushless motor within the magnetic field of the rotor. The magnets on the rotor will induce a current in the brushless motor when it spins.

8. Energy Storage:

- Connect the brushless motor to a battery bank or a capacitor bank to store the generated energy.

9. Test and Monitor:

- Start the experiment by spinning the rotor manually. Use a multimeter to measure the voltage and current produced by the brushless motor.

10. Optimize and Experiment:

- Experiment with different configurations, such as the number and position of magnets, to optimize the generator's efficiency.

Conclusion:

Building a free energy generator at home using a 36-volt brushless motor and a DC motor is a fascinating experiment that can help you learn about energy conversion and magnetic fields. However, it's important to note that true perpetual motion machines are not possible due to the laws of thermodynamics. While you may generate some electricity from this setup, it is unlikely to produce "free" energy indefinitely. Nonetheless, this project can be a fun and educational way to explore the principles of electromagnetism and energy conversion. Remember to stay safe during the experiment and enjoy the process of discovery.

how to make brushless motor from 36 volt dc motor at home new experiment

Advanced Components for a DIY Brushless Motor Conversion:

To make your DIY brushless motor conversion more sophisticated and closer to commercial brushless motor technology, you can consider the following advanced components and techniques:

1. Improved Hall Effect Sensors: Commercial brushless motors use high-precision Hall effect sensors for accurate rotor position detection. These sensors provide feedback to the controller for optimal commutation.

2. Electronic Speed Controller (ESC): Invest in a high-quality ESC designed for brushless motors. These controllers offer advanced features like programmable acceleration and deceleration curves, regenerative braking, and thermal protection.

3. Three-Phase Winding: Commercial brushless motors have a three-phase winding configuration on the stator for smoother and more efficient operation. You may need to rewind your stator with a three-phase winding if your original motor doesn't have it.

4. Encoder Feedback: For precise control and feedback, consider adding an encoder to the motor shaft. Encoders provide position and speed information, allowing for advanced control algorithms.

5. Microcontroller and PID Control: Implement a more advanced control algorithm, such as a Proportional-Integral-Derivative (PID) controller, to achieve smoother and more accurate motor control.

6. Balanced Rotors: Commercial brushless motors have balanced rotors to minimize vibrations and ensure quiet operation. You can use balancing equipment to achieve a well-balanced rotor.

Challenges in DIY Brushless Motor Conversion:

Converting a DC motor to a brushless motor is still a challenging project even with advanced components. Some of the challenges you may encounter include:

1. Precision Machining: Achieving a high level of precision in component placement, magnet alignment, and sensor installation is crucial for reliable operation.

2. Complex Control Algorithms: Developing and fine-tuning control algorithms can be time-consuming and may require a deep understanding of motor theory and electronics.

3. Heat Management: Brushless motors can generate significant heat during operation. Proper heat dissipation and thermal management are essential to prevent overheating and damage.

4. Safety: Working with high-voltage systems can be dangerous. Ensure you have safety measures in place, including electrical insulation, circuit protection, and safety gear.

5. Testing and Optimization: Extensive testing and iterative optimization are necessary to achieve desired performance levels.